Energy Levels and Observed Spectral Lines of Xenon, Xe I through Xe LIV
E. B. Saloman
National Institute of Standards and Technology, Gaithersburg, Maryland 20899-8422
共Received 14 May 2003; revised manuscript received 13 November 2003; accepted 15 December 2003; published online 25 August 2004兲
The energy levels and observed spectral lines of the xenon atom, in all stages of
ionization for which experimental data are available, have been compiled. Sufficient data
were found to generate level and line tables for Xe I –Xe XI, Xe XIX, Xe XXV –Xe XXIX,
Xe XLIII –Xe XLV, and Xe LI –Xe LIV. For Xe LIII and Xe LIV theoretical values are compiled for the energy levels. In 15 of the other stages a few lines are reported. Experimental g factors are included for Xe I, Xe II, and Xe III. A value, either experimental, semiempirical, or theoretical, is included for the ionization energy of each ion. © 2004 by the
U.S. Secretary of Commerce on behalf of the United States. All rights reserved.
关DOI: 10.1063/1.1649348兴
Key words: compilation; critically evaluated data; energy levels; observed spectral lines; spectra; Xe; xenon;
xenon ions.
Contents
1. Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2. Acknowledgments. . . . . . . . . . . . . . . . . . . . . . . . . .
3. Explanation of Tables of Compiled Levels and
Lines. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4. Tables of Energy Levels and Observed Lines. . . .
4.1. Xe I. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.2. Xe II. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.3. Xe III. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.4. Xe IV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.5. Xe V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.6. Xe VI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.7. Xe VII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.8. Xe VIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.9. Xe IX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.10. Xe X. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.11. Xe XI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.12. Xe XII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.13. Xe XIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.14. Xe XIV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.15. Xe XV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.16. Xe XVI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.17. Xe XVII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.18. Xe XVIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.19. Xe XIX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.20. Xe XX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.21. Xe XXI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.22. Xe XXII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.23. Xe XXIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.24. Xe XXIV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.25. Xe XXV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.26. Xe XXVI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
766
766
766
767
767
797
820
847
863
869
874
879
884
889
892
898
898
899
899
899
899
899
900
900
901
901
901
901
901
903
1.
2.
3.
4.
5.
6.
7.
© 2004 by the U.S. Secretary of Commerce on behalf of the United States.
All rights reserved.
0047-2689Õ2004Õ33„3…Õ765Õ157Õ$39.00
765
4.27. Xe XXVII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.28. Xe XXVIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.29. Xe XXIX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.30. Xe XXX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.31. Xe XXXI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.32. Xe XXXII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.33. Xe XXXIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.34. Xe XXXIV. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.35. Xe XXXV. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.36. Xe XXXVI. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.37. Xe XXXVII. . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.38. Xe XXXVIII. . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.39. Xe XXXIX. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.40. Xe XL. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.41. Xe XLI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.42. Xe XLII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.43. Xe XLIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.44. Xe XLIV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.45. Xe XLV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.46. Xe XLVI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.47. Xe XLVII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.48. Xe XLVIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.49. Xe XLIX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.50. Xe L. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.51. Xe LI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.52. Xe LII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.53. Xe LIII. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.54. Xe LIV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
905
906
907
908
908
909
909
909
910
910
910
910
910
911
911
911
911
913
914
916
916
917
917
917
917
919
920
921
List of Tables
Sources of Xe I levels. . . . . . . . . . . . . . . . . . . . . . . .
Parameter X for adjusting 70HUM levels. . . . . . . .
Sources of Xe I lines. . . . . . . . . . . . . . . . . . . . . . . .
Sources of Xe II lines. . . . . . . . . . . . . . . . . . . . . . . .
Sources of Xe VI lines. . . . . . . . . . . . . . . . . . . . . . .
Sources of Xe VII lines. . . . . . . . . . . . . . . . . . . . . . .
Sources of Xe VIII lines. . . . . . . . . . . . . . . . . . . . . .
767
767
768
798
870
875
885
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
766
E. B. SALOMAN
1. Introduction
In 1958 Moore 关58MOO兴 published a compilation of the
energy levels of xenon containing detailed analyses of Xe I –
Xe III and a very partial analysis of Xe IV. In 1968 Striganov
and Sventitskii 关68STR兴 published a compilation of xenon
lines containing a long list of observed lines for Xe I –Xe III,
a limited calculated list for Xe IV, and a few lines for Xe V –
Xe VIII. Since these compilations were completed, much
work on Xe has been published. This work includes results
obtained with new techniques such as laser spectroscopy,
beam foil spectroscopy, electron beam ion trap 共EBIT兲, laser
excited plasmas, laser implosion, and fusion devices such as
tokamaks. As a result we now have energy levels for 24
stages of ionization of Xe and at least one line for 39 stages.
This compilation takes into account published work
through December 2002. There are occasional exceptions in
which later work is considered, particularly for the ion Xe XI.
Generally, only experimentally derived energy levels are
used; these include semiempirical results obtained by interpolation and extrapolation along isoelectronic sequences. An
exception is made for Xe LIII and Xe LIV where good theoretical values exist. The use of calculated values is indicated
by enclosing the energy value in square brackets for these
ions and for a very few levels in other ionization stages.
We tabulate only those lines that have defined levels but
include some additional lines in the text for highly ionized
stages. For tabulated lines, the wavelengths are compared to
the energy level differences and must be consistent to be
included. For many of the stages, decisions are made about
which of several possible classifications to include by calculating the respective transition probabilities with the Cowan
code 关81COW兴. As a result of this process, in a few cases the
line classifications may differ from those given in the stated
references.
Occasionally two groups may differ in their published
analyses of the spectra of a particular stage of ionization and
in the identification of lines belonging to that stage. In such
cases we select the analysis we believe to be better. However, the choice is not always clear.
Many laser spectroscopy papers provide data about Rydberg series with results up to very high values of the principal quantum number n. In this compilation we limit the tabulated levels 共and thus also the corresponding lines兲 to include
only n less than or equal to 20.
For the first ionization energy we try to provide the best
available values obtained experimentally. We do not average
experimental values by different authors. Where experimental values are not available, we prefer to use semiempirical
results which adjust calculations along an isoelectronic sequence to fit available information about some of the members. For one- and two-electron ions there are very good
theoretical values. Where no information of these types is
available, we use the calculations of Carlson et al. 关70CAR兴
which are based on a simple spherical shell solution for neutral atoms. Their results seem to be within about 7% of values obtained by experimental or semiempirical methods for
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
xenon. We note that another calculation was carried out by
Magomedov and Omarova 关90MAG兴 using the method of
the quasiclassical self-consistent field. The available xenon
experimental and semiempirical values tend to fall between
the two calculations except for the highest ionization stages.
All energy levels are given in units of cm⫺1 and all wavelengths in units of Å 共0.1 nm兲. Ionization energies are provided in both cm⫺1 and eV. We use the conversion factor
8 065.544 77⫾0.000 32 cm⫺1/eV as determined by Mohr and
Taylor 关99MOH兴.
Although it is often difficult to determine, uncertainties in
the referenced publication of energy levels and lines are
likely 1␴ values. In many cases only the number of decimal
places indicates the uncertainty in the quoted values. We
generally use a ‘‘rule of 20’’ whereby an uncertainty of
greater than 20 in the least significant digit serves as the
criterion for dropping that digit.
The text for each ion does not attempt to provide a complete review of all work on that stage of ionization. Rather, it
intends to credit the major contributions, especially those
from which values are included in the line and level tables.
References
58MOO
68STR
70CAR
81COW
90MAG
99MOH
C. E. Moore, Atomic Energy Levels, Vol. III,
National Bureau of Standards 共U.S.兲 Circ. No.
467 共U.S. Government Printing Office, Washington, D.C., 1958兲.
A. R. Striganov and N. S. Sventitskii, Tables of
Spectral Lines of Neutral and Ionized Atoms
共IFI/Plenum, New York, 1968兲.
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, Atomic Data 2, 63 共1970兲.
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
K. M. Magomedov and P. M. Omarova, Opt.
Spectrosc. 共USSR兲 68, 10 共1990兲.
P. J. Mohr and B. N. Taylor, J. Phys. Chem. Ref.
Data 28, 1713 共1999兲.
2. Acknowledgments
I wish to thank J. Reader, C. J. Sansonetti, and W. C.
Martin for many helpful discussions and advice on the selection of data to include in this compilation. I thank J. Reader
for providing prepublication access to the Xe XI data. This
work was supported in part by the Office of Fusion Energy
Sciences of the U.S. Department of Energy and by the National Aeronautics and Space Administration.
3. Explanation of Tables of Compiled
Levels and Lines
In the Energy Level Tables the first column provides the
energy level in units of cm⫺1. The values have been rounded
using the ‘‘rule of 20.’’ The absence of a decimal point in a
whole number is used to indicate that the last digit is not
significant. The second column provides the parity of the
SPECTRAL LINES OF XENON
767
TABLE 1. Sources of Xe I levels
Source
Number
of levels
58MOO
86
58THE
20
67HUM
8
70HUM
101
Interferometric spectroscopy on
72COD
50
81GRA
18
Absorption spectroscopy using
synchrotron radiation
Optogalvanic spectroscopy
82LAB
74
85YOS
28
89HUI
98AHM
37
16
01BRA
5
a
Adjustmenta
共cm⫺1兲
Method
Compilation of published and
unpublished work to Dec. 1957
Classical spectroscopy
⌳⫺0.508
Classical spectroscopy
⌳⫺0.508
Comment
To match ground to excited state separation as determined from
01BRA 共adjusted兲
To match ground to excited state separation as determined from
01BRA 共adjusted兲
To match ground to excited state separation as determined from
01BRA 共adjusted兲
X given in Table 2. Adjusted to natural isotope mix using several
reported isotope measurements and ground to excited state
separation as determined from 01BRA 共adjusted兲
⌳⫺0.508
136
Xe
Laser excitation with optogalvanic
spectroscopy
Absorption spectroscopy of discharge
source
Laser spectroscopy
Optogalvanic spectroscopy
Isotope resolved laser spectroscopy
⌳⫺X
None
⌳⫺0.508
To match ground to excited state separation as determined from
01BRA 共adjusted兲
To match the value we use for the 6p 关 5/2兴 3 level
⌳⫺0.501
None
None
None
To natural isotope
mix
Uses same value of reference level as we do to the precision of the
results
Isotope-specific results adjusted to natural isotope mix by using
average weighted by abundance of isotopes in the natural mix
⌳ is the value of the level as published. X is given in Table 2.
energy level; ‘‘0’’ signifies even parity and ‘‘1’’ signifies odd
parity. The next three columns specify the configuration,
term, and J value of the level. In the cases of Xe I –Xe III
there is an additional column next which provides the g factor of the level 共when known兲. Finally in the last column a
reference is given to the source of the compiled level.
In the Line Tables wavelengths between 2 000 and 20 000
Å are in air. All others are vacuum wavelengths. The first
column is the observed wavelength in angstroms 共Å兲. The
second column is the vacuum wave number corresponding to
the observed wavelength. The wave numbers are provided in
units of cm⫺1 for ionization stages Xe I –Xe VI and in units of
103 cm⫺1 for the higher ionization stages. The absence of a
decimal point indicates that the last zero is not a significant
digit. The conversion between air wavelengths and vacuum
wavelengths and wave numbers is made using the three-term
formula given in Eq. 共3兲 of Peck and Reeder 关72PEC兴. The
wave number values are rounded to the appropriate number
of significant digits using the ‘‘rule of 20.’’ The third column
is the relative intensity assigned to the line. Also included
here are codes which are defined for each ion. The next six
columns specify the classification of the transition responsible for the line by providing the configuration, term, and J
value first for the lower level and then for the upper level.
The next to last column is an estimate of the uncertainty in
the wavelength of the observed line. The last column identifies the source of the observed line.
Reference
72PEC
E. R. Peck and K. Reeder, J. Opt. Soc. Am. 62,
958 共1972兲.
4. Tables of Energy Levels and Observed
Lines
4.1. Xe I
Z⫽54
Ground state
1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 104s 2 4 p 6 4d 105s 2 5 p 6 1 S0
Ionization energy 97 833.787⫾0.012 cm⫺1 共12.129 842
⫾0.000 002 eV兲
The energy levels of Xe I have been compiled from 11
different sources 关58MOO兴, 关58THE兴, 关67HUM兴, 关70HUM兴,
关72COD兴, 关81GRA兴, 关82LAB兴, 关85YOS兴, 关89HUI兴,
关98AHM兴, 关01BRA兴 which are summarized in Table 1.
Where necessary, the published energy levels 共denoted by ⌳
in Table 1兲 have been adjusted to put all sources on a common basis. The adjustments used are specified in Tables 1
and 2. The largest part of the adjustments has been to obtain
a common value for the large separation between the ground
state and the excited levels. The value we used was obtained
TABLE 2. Parameter X for adjusting 70HUM levels
Level
X (cm⫺1 )
4f, 5f –9f
5d
6s
6p
7p
8p
10f
all others
0.496
0.497
0.500
0.495
0.496
0.497
0.497
0.498
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
768
E. B. SALOMAN
TABLE 3. Sources of Xe I lines
Source
Number of
classifications
30GRE
33HUM
2
410
34MEG
132
35BEU
35MEG
4
25
49SIT
52HUM
55THE
58THE
60HUM
61HEP
63HUM
64AGO
64FAU
64PET
67HUM
72COD
72MOR
73HUM
85YOS
5
11
3
39
4
4
1
2
3
1
21
50
184
103
69
98AHM
00MIS
01BRA
34
24
3
Wavelength range
共Å兲
Uncertainty
共Å兲
Geissler tube
Geissler tube
5116 –5523
3340–10515
Geissler tube 共intensities taken from 33HUM兲
3948 –9923
0.03 共estimate兲
0.01 for ␭⭐9000 Å
0.02 for ␭⬎9000 Å
0.0005 for 4 d.p. lines
0.002 for 3 d.p. lines
0.15
0.03 for 2 d.p. lines
0.1 for 1 d.p. lines
0.5
0.1
0.2
0.2
Only Ritz wavelengths
0.8
2.
3.
10.
0.003
1.
0.02–0.10
1.– 4.
Only Ritz wavelengths
0.002 for 3 d.p. lines
0.01 for 2 d.p. lines
0.13
0.003–0.014
0.000 03
Light source
Absorption of carbon arc source
Geissler tube
962–996
10 550–12 623
Flash tube
Geissler tube
Xe discharges of varying pressures
Strong Xe discharge at relatively high pressures
Electrodeless discharge tubes
Cooled Geissler tube
Electrodeless discharge tube
Wide band optical maser
Maser
Electrodeless discharge tube
Electrodeless discharge tubes
Absorption of synchrotron radiation
Electrodeless discharge tube
Electrodeless discharge tube
Absorption of He discharge for ␭⬍1070 Å
Absorption of Ar discharge for ␭⬎1070 Å
Optogalvanic spectroscopy
Electrodeless discharge tube
Isotope-resolved laser spectroscopy from ground state
12 204 –19 467
12 451–16 052
5963– 8559
3738 –10 324
14 355–16 665
23 198 –26 518
39 210
32 752
34 340–185 140
1470
38 679– 40 769
430–592
36 518 –54 447
12 409–36 242
926 –1296
from the isotope-specific results of Brandi et al. 关01BRA兴 for
the 5p 6 – 5p 5 nl energy difference by using an average of
values for each isotope weighted according to its fraction in
the natural isotope mix. This same method of averaging the
isotope-specific values was used to obtain our quoted ionization energy from the isotope specific results of Brandi et al.
关01BRA兴.
The first major compilation of Xe I levels, by Moore
关58MOO兴, was largely based on unpublished work of Edlén.
Several other sources 关58THE兴, 关67HUM兴, 关70HUM兴,
关81GRA兴 use this work’s value for the ground–excited state
separation and all are adjusted to the value based on Brandi
et al. 关01BRA兴. Several other sources require no adjustment
since they measure directly from the ground state 关72COD兴,
关85YOS兴, 关89HUI兴 or, to the precision of their quoted results,
use a reference level 关98AHM兴 in agreement with the value
used here. The most precise measurement of many excited
levels was in the work of Humphreys and Paul 关70HUM兴.
However, their work was for the single isotope 136Xe. In
order to be able to use these results, their values were corrected to the natural isotope mix as specified in Tables 1 and
2 by using isotope shift data 关89PLI兴, 关74JAC兴, 关75JAC兴 and
a weighted average over the isotopes. This results in a decrease in precision from the four decimal places quoted in
Humphreys and Paul 关70HUM兴. The uncertainty is estimated
to be 0.0035 cm⫺1 from the ground state and 0.001 cm⫺1
between excited levels.
Note that in the level table the three energy levels in
square brackets are predicted values furnished to Moore
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
6383– 6753
10 528 –21 476
1044 –1061
关58MOO兴 by Edlén. The energy of autoionizing levels can be
specified in two different ways. One is to specify the resonance energy of the absorption profile. The other is to specify
the energy at which the peak of the absorption profile occurs.
We chose the latter in order to facilitate the use of these
tables with observations of spectra. There is work reported
using the former, e.g., 关86WAN兴 and 关00KOR兴.
The observed spectral lines of Xe I have been compiled
from 23 distinct sources 关30GRE兴, 关33HUM兴, 关34MEG兴,
关35BEU兴, 关35MEG兴, 关49SIT兴, 关52HUM兴, 关55THE兴,
关58THE兴, 关60HUM兴, 关61HEP兴, 关63HUM兴, 关64AGO兴,
关64FAU兴, 关64PET兴, 关67HUM兴, 关72COD兴, 关72MOR兴,
关73HUM兴, 关85YOS兴, 关98AHM兴, 关00MIS兴, 关01BRA兴 with
seven additional sources 关32RAS兴, 关36BOY兴, 关55PLY兴,
关56HEP兴, 关61HUM兴, 关67AND兴, 关74TAG兴 totally superseded
by the others. The distinct sources are summarized in Table
3. The priority in our choice of lines which appear in more
than one reference is specified as follows by spectral region.
Far ultraviolet 共400–1500 Å兲: 关01BRA兴, 关85YOS兴,
关64PET兴, 关36BOY兴, 关72COD兴, and finally 关35BEU兴.
Near ultraviolet and visible 共3000– 8000 Å兲: 关34MEG兴,
关33HUM兴, 关55THE兴 for lines between 5200 and 5710 Å,
关30GRE兴, 关32RAS兴, 关58THE兴, 关55THE兴 outside range specified above, 关74TAG兴, and finally 关98AHM兴.
Near infrared 共8000–20 000 Å兲: 关34MEG兴, 关00MIS兴,
关35MEG兴, 关33HUM兴, 关52HUM兴, 关55PLY兴, 关30GRE兴,
关32RAS兴, 关58THE兴, 关55THE兴, 关49SIT兴, 关67AND兴, 关73HUM兴,
关61HUM兴, and finally 关60HUM兴.
Far infrared 共greater than 20 000 Å兲: 关49SIT兴, 关61HEP兴,
SPECTRAL LINES OF XENON
关67HUM兴, 关56HEP兴, 关63HUM兴, 关67AND兴, 关72MOR兴,
关64AGO兴, 关64FAU兴, 关73HUM兴, 关61HUM兴, and finally
关60HUM兴.
As Table 3 indicates, two sources 关60HUM兴, 关73HUM兴 do
not provide observed wavelengths but instead give Ritz
wavelengths, which are the wavelengths calculated from
known energy levels. Since we do not know the actual wavelengths observed, the Ritz wavelengths are quoted to only
one decimal place. The corresponding vacuum wave numbers are also given with only one decimal place. In addition
for 关73HUM兴, the values quoted were for the isotope 136Xe.
We recalculated these Ritz values to base them on our energy
levels for the natural isotope xenon mix and also quoted
these to one decimal place.
There are some cases in which the authors’ choice of
which transition to assign the observed line is questionable.
For example, in 关73HUM兴 共using vacuum wavelengths兲 the
33 536.1 Å line was classified as 5d ⬘ 关 5/2兴 2 – 9p 关 5/2兴 3 . But
calculation using the Cowan codes 关81COW兴 indicates that
the 6p ⬘ 关 1/2兴 1 – 7d 关 1/2兴 0 transition should be about 20 times
stronger. Its wavelength would be 33 543.3 Å. This may be
the line actually observed but we report the classification of
关73HUM兴 here.
The classification of the three electric quadrupole lines is
due to Edlén 关43EDL兴. A few additional lines in the wavelength region 1027–1089 Å have been identified by Abbink
关28ABB兴 as Xe I lines. We have been unable to classify these
lines and so have not included them. Where possible we have
corrected typographical errors in the references. For example, from the stated energy levels in 关85YOS兴 it was clear
that the line reported at 1030.453 Å was really at 1030.435
Å.
The wavelengths of lines between 5200 and 5710 Å given
in the unpublished report 关55THE兴 suggested higher precision than those provided by 关33HUM兴. However, they did
not agree as well as 关33HUM兴 with the values predicted by
the energy levels. Therefore the results of 关33HUM兴 were
given priority over 关55THE兴 resulting in no 关55THE兴 lines in
this range being in the Xe I line table.
The large uncertainties in the far infrared wavelengths of
关72MOR兴 共often 4 Å兲 made classification difficult and multiple classification frequent. Lines and levels included in the
tables were limited to n⭐20. A few additional lines were
reported by 关74TAG兴 but were not included because their
ionization stage could not be determined. We also note that
some far infrared stimulated emission lines reported by
关65LIB兴 were also not included.
All candidate lines were passed through a program to determine if they correspond to a transition between the known
Xe I levels. Only classifiable lines are included in our compilation.
Transition probability calculations using the Cowan codes
关81COW兴 with empirically adjusted configuration average
energies were used to help resolve choices between multiple
possible classifications of lines. Convergence was not obtained for the 19s, 20s, 20d, and 20f levels and so we could
not use the codes for guidance in transitions involving them.
769
Intensities have been taken from the stated sources.
The intensity codes given in the Xe I line table are taken
from the specified sources. Their meaning is stated below:
Symbol
Definition
a
observed in absorption
h
hazy
hf
line has hyperfine structure
l
unsymmetrical-shaded to longer wavelength
w
wide
E2
electric quadrupole line
f
forbidden line
:
Ritz line from levels in natural isotope mix of
xenon. Given to only one decimal place since
the observed wavelength was not reported.
¯
somewhat less intensity than the value given
*
multiply classified line 共two or more
classifications of this line share the same
intensity兲
The g J values included in the Xe I level table are compiled
from eight sources 关41GRE兴, 关71CHE兴, 关72PRI兴, 关79HUE兴,
关 79HUSa兴 , 关 79HUSb兴 , 关83ABU兴, 关83BIN兴. Uncertainties
have been included in parentheses for those g j values for
which they were specified.
References
28ABB
J. H. Abbink and H. B. Dorgelo, Z. Phys. 47,
221 共1928兲.
30GRE
W. Gremmer, Z. Phys. 59, 154 共1930兲.
32RAS
E. Rasmussen, Z. Phys. 73, 779 共1932兲.
33HUM
C. J. Humphreys and W. F. Meggers, J. Res.
Natl. Bur. Stand. 10, 139 共1933兲.
34MEG
W. F. Meggers and C. J. Humphreys, J. Res.
Natl. Bur. Stand. 13, 293 共1934兲.
35BEU
H. Beutler, Z. Phys. 93, 177 共1935兲.
35MEG
W. F. Meggers, J. Res. Natl. Bur. Stand. 14, 487
共1935兲.
36BOY
J. C. Boyce, Phys. Rev. 49, 730 共1936兲.
41GRE
J. B. Green, E. H. Hurlburt, and D. W.
Bowman, Phys. Rev. 59, 72 共1941兲.
43EDL
B. Edlén, Ark. Mat. Astron. Fys. 29A, 1 共1943兲.
49SIT
W. R. Sittner and E. R. Peck, J. Opt. Soc. Am.
39, 474 共1949兲.
52HUM
C. J. Humphreys and H. J. Kostkowski, J. Res.
Natl. Bur. Stand. 49, 73 共1952兲.
55THE
M. Thekaekara, G. H. Dieke, and H. M.
Crosswhite, ‘‘The Spectrum of Xenon I’’, Johns
Hopkins Spectroscopic Report No. 12,
December, 1955 共unpublished兲.
55PLY
E. K. Plyler, L. R. Blaine, and E. D. Tidwell, J.
Res. Natl. Bur. Stand. 55, 279 共1955兲.
56HEP
G. Hepner, C. R. Acad. Sci. 242, 1430 共1956兲.
58MOO
C. E. Moore, Atomic Energy Levels, Vol. III,
National Bureau of Standard 共U.S.兲 Circ. No.
467 共U.S. Government Printing Office,
Washington, D.C., 1958兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
770
E. B. SALOMAN
58THE
M. Thekaekara and G. H. Dieke, Phys. Rev.
109, 2029 共1958兲.
74JAC
D. A. Jackson and M.-C. Coulombe, Proc. R.
Soc. London, Sect. A 338, 277 共1974兲.
60HUM
C. J. Humphreys and E. Paul, Jr., ‘‘Infrared
Atomic Spectra’’ in Naval Ordnance Laboratory
Corona Quarterly Report: Foundational
Research
Projects,
Jan.–March
1960,
NAVWEPS Report 5996, NOLC Report 503
共unpublished兲, pp. 23– 40.
74TAG
A. A. Tagliaferri, E. Gallego Lluesma, M.
Garavaglia, M. Gallardo, and C. A. Massone,
Opt. Pura Apl. 7, 89 共1974兲.
75JAC
D. A. Jackson and M.-C. Coulombe, Proc. R.
Soc. London, Sect. A 343, 453 共1975兲.
79HUE
M. Huet, H. Kucal, M. C. Bigeon, and X.
Husson, J. Phys. 共Paris兲 40, 541 共1979兲.
79HUSa
X. Husson and J. P. Grandin, J. Phys. B 12 3649
共1979兲.
79HUSb
X. Husson, J. P. Grandin, and H. Kucal, J. Phys.
共Paris兲 40, 551 共1979兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
81GRA
J.-P. Grandin and X. Husson, J. Phys. B 14, 433
共1981兲.
82LAB
P. Labastie, F. Biraben, and E. Giacobino, J.
Phys. B 15, 2595 共1982兲.
61HEP
G. Hepner, Ann. Phys. 共Paris兲 6, 735 共1961兲.
61HUM
C. J. Humphreys, E. Paul, Jr., and K. B. Adams,
‘‘Infrared Atomic Spectra’’ in Naval Ordnance
Laboratory
Corona
Quarterly
Report:
Foundational Research Projects, July–Sept.
1961, NAVWEPS Report 7205 共unpublished兲,
pp. 25–52.
63HUM
C. J. Humphreys and E. Paul, Jr., ‘‘Infrared
Atomic Spectra: The First Spectrum of Xenon
in the 4-Micron Region and its Interpretation’’
in Naval Ordnance Laboratory Corona
Quarterly Report: Foundational Research
Projects, Jan.–March 1963, NAVWEPS Report
8150 共unpublished兲, pp. 33–39.
64AGO
R. der Agobian, J. L. Otto, R. Cagnard, and R.
Echard, J. Phys. 共Paris兲 25, 887 共1964兲.
83ABU
H. Abu-Safia and J. Margerie, J. Phys. B 16,
927 共1983兲.
64FAU
W. L. Faust, R. A. McFarlane, C. K. N. Patel,
and C. G. B. Garrett, Phys. Rev. 133, A1476
共1964兲.
83BIN
G. Binet, X. Husson, and J. P. Grandin, J. Phys.
Lett. 共Paris兲 44, L151 共1983兲.
64PET
B. Petersson, Ark. Fys. 27, 317 共1964兲.
85YOS
K. Yoshino and D. E. Freeman, J. Opt. Soc. Am.
B 2, 1268 共1985兲.
65LIB
S. Liberman, C. R. Acad. Sci. 261, 2601 共1965兲.
86WAN
67AND
O. Andrade, M. Gallardo, and K. Bockasten,
Appl. Phys. Lett. 11, 99 共1967兲.
L.-G. Wang and R. D. Knight, Phys. Rev. A 34,
3902 共1986兲.
89HUI
A. L’Huillier, L. A. Lompré, D. Normand, J.
Morellec, M. Ferray, J. Lavancier, G. Mainfray,
and C. Manus, J. Opt. Soc. Am. B 6, 1644
共1989兲.
89PLI
M. D. Plimmer, P. E. G. Baird, C. J. Foot, D. N.
Stacey, J. B. Swan, and G. K. Woodgate, J.
Phys. B 22, L241 共1989兲.
98AHM
M. Ahmed, M. A. Baig, and B. Suleman, J.
Phys. B 31, 4017 共1998兲.
00KOR
A. Kortyna, M. R. Darrach, P.-T. Howe, and A.
Chutjian, J. Opt. Soc. Am B 17, 1934 共2000兲.
00MIS
A. P. Mishra, R. J. Kshirsagar, V. P. Bellary, and
T. K. Balasubramanian, J. Quant. Spectrosc.
Radiat. Transfer 67, 1 共2000兲.
01BRA
F. Brandi, I. Velchev, W. Hogervorst, and W.
Ubachs, Phys. Rev. A 64, 032505 共2001兲.
67HUM
C. J. Humphreys, E. Paul, Jr., R. D. Cowan, and
K. L. Andrew, J. Opt. Soc. Am. 57, 855 共1967兲.
70HUM
C. J. Humphreys and E. Paul, Jr., J. Opt. Soc.
Am. 60, 1302 共1970兲.
71CHE
M. Chenevier and T. D. Nguyen, Phys. Lett.
36A, 177 共1971兲.
72COD
K. Codling and R. P. Madden, J. Res. Natl. Bur.
Stand. Sect. A 76, 1 共1972兲.
72MOR
C. Morillon, Spectrochim. Acta, Part B 27, 527
共1972兲.
72PRI
M. H. Prior and C. E. Johnson, Phys. Rev. A 5,
550 共1972兲.
73HUM
C. J. Humphreys, J. Phys. Chem. Ref. Data 2,
519 共1973兲.
Energy levels of Xe I
Energy level
共cm⫺1兲
0.000
67 067.547
68 045.156
76 196.767
77 185.041
77 269.145
Parity
Configuration
Term
0
5p 6
1
1
1
1
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
2
0
5p 5 ( 2 Pⴰ3/2)6p
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
1
J
S
gJ
0
ⴰ
Source
of level
01BRA
关 3/2兴
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
1
0
1
1.50095共11兲
1.2055共2兲
1.321
70HUM
70HUM
01BRA
70HUM
关 1/2兴
1
1.852
70HUM
2
SPECTRAL LINES OF XENON
771
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
Configuration
Term
J
gJ
78 119.798
78 403.061
78 956.031
79 212.465
80 118.962
88 379.126
89 162.356
89 278.706
89 860.015
0
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)6p
2
关 5/2兴
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 1/2兴
2
3
1
2
0
1
2
1
0
1.11103共33兲
1.336
1.02348共30兲
1.3836共7兲
79 771.267
79 986.618
80 196.629
80 970.438
80 322.746
83 889.971
81 925.514
82 430.204
91 152.670
91 746.564
91 447.474
93 618.24
1
1
1
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
2
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
3
2
1
2
3
2
3
2
1
85 188.777
85 440.017
95 720.95
95 800.584
1
1
1
1
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ1/2)7s
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
1
0
1
87 927.131
88 351.681
88 469.213
88 744.559
88 686.500
88 842.256
98 855.0
99 052.8
99 068.4
0
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)7p
5p 5 ( 2 Pⴰ1/2)7p
5p 5 ( 2 Pⴰ1/2)7p
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
1
2
3
1
2
0
1
1
2
88 491.020
88 549.775
88 708.466
90 032.155
88 911.692
89 024.890
89 243.258
89 534.568
100 418.
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6d
2
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
2
1
4
3
2
3
1
90 804.538
90 932.432
101 426.
1
1
1
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ1/2)8s
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
1
1
1.465
1.182
70HUM
70HUM
58MOO
90 839.777
90 849.440
90 860.655
90 861.506
90 907.090
90 910.052
90 944.050
90 944.133
101 424.8
101 424.8
101 424.8
101 429.3
0
0
0
0
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ1/2)4 f
2
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
1
2
5
4
3
2
3
4
3
3
4
2
0.4997共4兲
1.11
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
58THE
58THE
58THE
58THE
2
2
2
2
2
2
2
0.7925共2兲
1.190共1兲
1.551共1兲
1.395
1.2506共3兲
1.0749共4兲
1.3750共3兲
1.126
1.274
1.308
1.7272共2兲
1.1276共5兲
1.330共2兲
0.9039共2兲
1.3520共2兲
Source
of level
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
58MOO
70HUM
70HUM
58MOO
01BRA
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
81GRA
81GRA
81GRA
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
58MOO
1.18
0.86
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
772
E. B. SALOMAN
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
Configuration
92 153.279
92 221.362
92 264.950
92 333.066
92 370.923
92 555.135
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
2
92 259.931
92 128.287
92 444.927
92 646.125
92 678.516
92 733.597
92 721.530
92 714.038
103 419.
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ1/2)7d
2
93 362.671
93 366.245
93 377.475
93 378.199
93 401.466
93 403.966
93 420.823
93 420.901
103 928.2
103 928.2
103 928.2
103 931.4
0
0
0
0
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ1/2)5 f
2
93 398.253
93 422.108
103 954.
1
1
1
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ1/2)9s
2
93 421.22
93 421.53
93 427.38
93 427.38
93 439.76
93 439.76
93 446.13
93 446.13
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
2
94 066.95
94 110.15
94 134.53
94 168.86
94 190.24
94 285.50
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
2
94 124.342
94 228.004
94 226.320
94 290.225
94 285.651
94 685.467
94 339.433
94 369.995
105 013.
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ1/2)8d
2
94 734.882
94 737.121
94 744.198
94 744.718
0
0
0
0
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Source
of level
Term
J
gJ
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
1
2
3
1
2
0
1.801
1.103
1.329共2兲
1.036
1.383共2兲
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
3
2
3
2
1
1
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
1
2
5
4
3
2
3
4
3
3
4
2
0.4997共4兲
1.10
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
1
1
1.496
1.154
关 5/2兴 ⴰ
关 5/2兴 ⴰ
2
关 11/2兴 ⴰ
2
关 11/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 9/2兴 ⴰ
2
关 9/2兴 ⴰ
2
3
5
6
3
4
4
5
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
1
2
3
1
2
0
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
3
2
1
2
3
1
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
1
2
5
4
2
2
2
2
2
2
2
1.273
1.217
1.026
1.073
1.263
1.196
0.819
1.17
0.87
1.307
1.386
1.180
1.236
1.076
1.303
0.914
0.987
1.246
0.50
1.09
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
58MOO
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
70HUM
58THE
58THE
58THE
58THE
70HUM
70HUM
58MOO
70HUM
01BRA
70HUM
70HUM
70HUM
01BRA
70HUM
70HUM
85YOS
70HUM
70HUM
70HUM
70HUM
SPECTRAL LINES OF XENON
773
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
Configuration
94 758.116
94 759.935
94 769.465
94 769.524
105 288.2
105 288.2
105 288.2
105 288.2
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
2
94 759.927
94 787.084
105 303.7
1
1
1
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ1/2)10s
2
95 154.37
95 181.66
95 196.53
95 216.46
95 229.59
95 286.06
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
2
95 179.580
95 228.399
95 249.953
95 283.008
95 274.415
95 498.48
95 313.401
95 334.723
105 941.
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ1/2)9d
2
95 561.074
95 562.546
95 567.14
95 567.48
95 575.960
95 577.20
95 583.08
95 583.16
106 107.8
106 107.8
106 107.8
106 107.8
0
0
0
0
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ1/2)7 f
2
95 578.961
95 590.97
106 120.8
1
1
1
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ1/2)11s
2
关95 830.8兴
关95 848.6兴
95 858.18
95 870.69
95 879.40
95 915.53
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
2
95 892.194
95 912.003
95 896.25
95 912.880
95 904.600
96 045.77
95 931.80
95 946.582
106 528.
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ1/2)10d
2
Source
of level
Term
J
gJ
关 5/2兴
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
3
2
3
4
2
3
3
4
1.17
0.87
70HUM
70HUM
70HUM
70HUM
58THE
58THE
58THE
58THE
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
1
1
1.512
1.164
70HUM
70HUM
85YOS
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
1
2
3
1
2
0
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
3
2
1
2
3
1
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
1
2
5
4
3
2
3
4
2
3
3
4
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
1
1
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
1
2
3
1
2
0
关 7/2兴 ⴰ
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
4
3
0
1
2
1
2
3
1
2
2
2
2
2
2
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
1.217
1.237
1.078
1.298
0.899
0.980
1.225
70HUM
70HUM
70HUM
70HUM
70HUM
58MOO
70HUM
70HUM
85YOS
58MOO
70HUM
58MOO
58MOO
70HUM
58MOO
58MOO
58MOO
58THE
58THE
58THE
58THE
1.188
58MOO
58MOO
85YOS
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
1.081
58MOO
70HUM
58MOO
58MOO
58MOO
58MOO
58MOO
70HUM
85YOS
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
774
E. B. SALOMAN
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
Configuration
96 096.25
96 097.31
96 100.60
96 100.75
96 106.31
96 107.36
96 111.17
96 111.24
106 639.1
106 639.1
106 639.1
106 639.1
0
0
0
0
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ1/2)8 f
5p 5 ( 2 Pⴰ1/2)8 f
5p 5 ( 2 Pⴰ1/2)8 f
5p 5 ( 2 Pⴰ1/2)8 f
2
96 109.22
96 122.77
1
1
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)12s
2
关96 279.6兴
96 292.0
96 298.95
96 306.86
96 312.89
96 337.82
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
2
96 304.62
96 315.16
96 321.55
96 334.479
96 328.62
96 423.77
96 348.03
96 358.56
106 929.
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ1/2)11d
2
96 462.63
96 463.27
96 465.63
96 465.72
96 469.73
96 470.39
96 473.15
96 473.15
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
2
96 472.13
96 480.62
1
1
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)13s
2
96 601.6
96 606.77
96 616.90
96 634.09
0
0
0
0
5p 5 ( 2 Pⴰ3/2)13p
5p 5 ( 2 Pⴰ3/2)13p
5p 5 ( 2 Pⴰ3/2)13p
5p 5 ( 2 Pⴰ3/2)13p
2
96 608.6
96 616.295
96 622.710
96 631.610
96 627.017
96 694.39
96 641.306
96 649.083
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
2
96 724.5
96 725.3
96 726.47
96 726.56
96 729.49
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
J
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
1
2
5
4
3
2
3
4
2
3
3
4
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
58THE
58THE
58THE
58THE
2
1
58MOO
58MOO
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
1
2
3
1
2
0
58MOO
89HUI
58MOO
58MOO
58MOO
58MOO
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
3
2
1
2
3
1
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
85YOS
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
1
2
5
4
3
2
3
4
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
58MOO
2
1
58MOO
58MOO
关 5/2兴
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
3
2
0
89HUI
58MOO
58MOO
58MOO
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
0
1
4
3
2
1
2
3
98AHM
82LAB
82LAB
82LAB
82LAB
58MOO
82LAB
82LAB
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
2
关 5/2兴
1
2
5
4
3
58MOO
89HUI
58MOO
58MOO
58MOO
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
2
gJ
Source
of level
Term
1.082
SPECTRAL LINES OF XENON
775
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
Configuration
96 730.1
96 732.0
0
0
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
2
J
关 5/2兴
关 7/2兴
2
3
98AHM
98AHM
96 731.584
96 737.710
1
1
5p 5 ( 2 Pⴰ3/2)14s
5p 5 ( 2 Pⴰ3/2)14s
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
1
82LAB
82LAB
96 827.0
96 830.14
96 837.14
96 851.0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)14p
2
关 5/2兴
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
3
2
0
89HUI
58MOO
58MOO
89HUI
96 831.2
96 836.723
96 842.085
96 844.875
96 848.494
96 855.664
96 861.540
96 894.5
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
2
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
2
3
2
3
1
98AHM
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
85YOS
96 917.6
96 918.6
96 919.21
96 919.21
96 921.51
96 922.2
96 923.6
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)11f
2
关 3/2兴
关 3/2兴
2
关 9/2兴
2
关 9/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
1
2
5
4
3
2
3
81GRA
89HUI
58MOO
58MOO
58MOO
98AHM
98AHM
96 923.283
96 927.863
1
1
5p 5 ( 2 Pⴰ3/2)15s
5p 5 ( 2 Pⴰ3/2)15s
2
2
1
82LAB
82LAB
96 990.2
96 995.5
96 998.7
97 004.0
97 013.8
0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)15p
5p 5 ( 2 Pⴰ3/2)15p
5p 5 ( 2 Pⴰ3/2)15p
5p 5 ( 2 Pⴰ3/2)15p
5p 5 ( 2 Pⴰ3/2)15p
2
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
1
2
3
2
0
81GRA
89HUI
58MOO
89HUI
89HUI
96 998.4
97 002.451
97 006.822
97 008.710
97 017.046
97 011.593
97 021.590
97 046.4
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
2
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
2
2
3
3
1
98AHM
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
85YOS
97 064.6
97 065.3
97 068.1
97 069.2
0
0
0
0
5p 5 ( 2 Pⴰ3/2)12f
5p 5 ( 2 Pⴰ3/2)12f
5p 5 ( 2 Pⴰ3/2)12f
5p 5 ( 2 Pⴰ3/2)12f
2
关 3/2兴
关 3/2兴
2
关 5/2兴
2
关 7/2兴
1
2
2
3
81GRA
89HUI
98AHM
98AHM
97 068.986
97 072.525
1
1
5p 5 ( 2 Pⴰ3/2)16s
5p 5 ( 2 Pⴰ3/2)16s
2
2
1
82LAB
82LAB
97 121.1
97 124.8
97 131.4
97 139.0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)16p
5p 5 ( 2 Pⴰ3/2)16p
5p 5 ( 2 Pⴰ3/2)16p
5p 5 ( 2 Pⴰ3/2)16p
2
关 1/2兴
关 5/2兴
2
关 3/2兴
2
关 1/2兴
1
2
2
0
81GRA
89HUI
89HUI
89HUI
97 127.115
97 130.101
97 133.664
97 134.992
97 137.316
97 141.557
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
2
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
0
1
4
2
3
2
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
2
2
2
2
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
gJ
Source
of level
Term
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
776
E. B. SALOMAN
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
Configuration
97 145.141
97 164.180
1
1
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
2
97 178.8
97 179.4
97 181.5
97 182.4
0
0
0
0
5p 5 ( 2 Pⴰ3/2)13f
5p 5 ( 2 Pⴰ3/2)13f
5p 5 ( 2 Pⴰ3/2)13f
5p 5 ( 2 Pⴰ3/2)13f
2
97 182.316
97 185.120
1
1
5p 5 ( 2 Pⴰ3/2)17s
5p 5 ( 2 Pⴰ3/2)17s
2
97 223.4
97 226.5
97 231.7
97 237.8
0
0
0
0
5p 5 ( 2 Pⴰ3/2)17p
5p 5 ( 2 Pⴰ3/2)17p
5p 5 ( 2 Pⴰ3/2)17p
5p 5 ( 2 Pⴰ3/2)17p
2
97 228.179
97 230.5
97 233.418
97 234.379
97 236.276
97 239.641
97 241.516
97 257.488
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
2
97 269.
97 270.0
97 271.4
0
0
0
5p 5 ( 2 Pⴰ3/2)14f
5p 5 ( 2 Pⴰ3/2)14f
5p 5 ( 2 Pⴰ3/2)14f
2
97 272.195
97 274.447
1
1
5p 5 ( 2 Pⴰ3/2)18s
5p 5 ( 2 Pⴰ3/2)18s
2
97 305.2
97 307.9
97 312.0
97 316.8
0
0
0
0
5p 5 ( 2 Pⴰ3/2)18p
5p 5 ( 2 Pⴰ3/2)18p
5p 5 ( 2 Pⴰ3/2)18p
5p 5 ( 2 Pⴰ3/2)18p
2
97 309.1
97 310.8
97 313.272
97 313.986
97 315.551
97 318.266
97 320.606
97 332.598
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
2
97 342.3
97 342.9
97 344.5
0
0
0
5p 5 ( 2 Pⴰ3/2)15f
5p 5 ( 2 Pⴰ3/2)15f
5p 5 ( 2 Pⴰ3/2)15f
2
97 344.679
97 346.555
1
1
5p 5 ( 2 Pⴰ3/2)19s
5p 5 ( 2 Pⴰ3/2)19s
2
97 371.6
97 373.7
97 377.2
97 381.0
0
0
0
0
5p 5 ( 2 Pⴰ3/2)19p
5p 5 ( 2 Pⴰ3/2)19p
5p 5 ( 2 Pⴰ3/2)19p
5p 5 ( 2 Pⴰ3/2)19p
2
97 374.6
97 376.175
97 378.188
97 378.731
97 380.036
97 382.258
97 384.187
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)18d
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
J
关 5/2兴 ⴰ
关 3/2兴 ⴰ
3
1
82LAB
82LAB
1
2
2
3
81GRA
89HUI
98AHM
98AHM
2
1
82LAB
82LAB
关 1/2兴
关 5/2兴
2
关 3/2兴
2
关 1/2兴
1
2
2
0
81GRA
89HUI
89HUI
89HUI
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
2
3
2
3
1
82LAB
85YOS
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
关 3/2兴
关 3/2兴
2
关 5/2兴
1
2
2
81GRA
89HUI
98AHM
2
1
82LAB
82LAB
关 1/2兴
关 5/2兴
2
关 3/2兴
2
关 1/2兴
1
2
2
0
81GRA
89HUI
89HUI
89HUI
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
2
3
2
3
1
98AHM
85YOS
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
关 3/2兴
关 3/2兴
2
关 5/2兴
1
2
2
81GRA
89HUI
89HUI
2
1
82LAB
82LAB
关 1/2兴
关 5/2兴
2
关 3/2兴
2
关 1/2兴
1
2
2
0
81GRA
89HUI
89HUI
89HUI
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
0
1
4
2
3
2
3
98AHM
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
2
关 3/2兴
关 3/2兴
2
关 5/2兴
2
关 7/2兴
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
gJ
Source
of level
Term
SPECTRAL LINES OF XENON
777
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
Configuration
97 393.946
1
5p 5 ( 2 Pⴰ3/2)18d
2
97 402.2
97 402.4
97 403.8
0
0
0
5p 5 ( 2 Pⴰ3/2)16f
5p 5 ( 2 Pⴰ3/2)16f
5p 5 ( 2 Pⴰ3/2)16f
2
97 403.985
97 405.556
1
1
5p 5 ( 2 Pⴰ3/2)20s
5p 5 ( 2 Pⴰ3/2)20s
2
97 428.1
97 431.0
97 434.2
0
0
0
5p 5 ( 2 Pⴰ3/2)20p
5p 5 ( 2 Pⴰ3/2)20p
5p 5 ( 2 Pⴰ3/2)20p
2
97 428.6
97 429.982
97 431.677
97 432.098
97 433.195
97 435.037
97 436.646
97 444.695
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
2
97 451.6
97 452.2
97 453.2
0
0
0
5p 5 ( 2 Pⴰ3/2)17f
5p 5 ( 2 Pⴰ3/2)17f
5p 5 ( 2 Pⴰ3/2)17f
2
97 473.6
97 474.831
97 476.269
97 476.602
97 477.532
97 479.076
97 480.431
97 487.150
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
2
97 493.0
97 493.5
97 494.3
0
0
0
5p 5 ( 2 Pⴰ3/2)18f
5p 5 ( 2 Pⴰ3/2)18f
5p 5 ( 2 Pⴰ3/2)18f
2
97 528.1
97 528.5
97 529.2
0
0
0
5p 5 ( 2 Pⴰ3/2)19f
5p 5 ( 2 Pⴰ3/2)19f
5p 5 ( 2 Pⴰ3/2)19f
2
97 557.9
0
5p 5 ( 2 Pⴰ3/2)20f
2
106 649.6
107 011.7
107 270.5
107 461.7
107 607.2
107 720.2
107 810.0
107 882.3
107 941.5
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ1/2)12s
5p 5 ( 2 Pⴰ1/2)13s
5p 5 ( 2 Pⴰ1/2)14s
5p 5 ( 2 Pⴰ1/2)15s
5p 5 ( 2 Pⴰ1/2)16s
5p 5 ( 2 Pⴰ1/2)17s
5p 5 ( 2 Pⴰ1/2)18s
5p 5 ( 2 Pⴰ1/2)19s
5p 5 ( 2 Pⴰ1/2)20s
2
107 209.
107 415.
107 571.5
107 692.4
107 787.6
107 864.2
107 926.5
107 978.1
108 021.3
1
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ1/2)12d
5p 5 ( 2 Pⴰ1/2)13d
5p 5 ( 2 Pⴰ1/2)14d
5p 5 ( 2 Pⴰ1/2)15d
5p 5 ( 2 Pⴰ1/2)16d
5p 5 ( 2 Pⴰ1/2)17d
5p 5 ( 2 Pⴰ1/2)18d
5p 5 ( 2 Pⴰ1/2)19d
5p 5 ( 2 Pⴰ1/2)20d
2
J
关 3/2兴 ⴰ
1
82LAB
1
2
2
81GRA
89HUI
89HUI
2
1
82LAB
82LAB
2
关 5/2兴
关 3/2兴
2
关 1/2兴
2
2
0
89HUI
89HUI
89HUI
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
2
3
2
3
1
98AHM
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
2
关 3/2兴
关 3/2兴
2
关 5/2兴
1
2
2
81GRA
89HUI
89HUI
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
4
2
3
2
3
1
98AHM
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
82LAB
2
关 3/2兴
关 3/2兴
2
关 5/2兴
1
2
2
81GRA
89HUI
89HUI
关 3/2兴
关 3/2兴
2
关 5/2兴
1
2
2
81GRA
89HUI
89HUI
关 3/2兴
1
81GRA
关 1/2兴 ⴰ
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
1
1
1
1
1
1
1
1
1
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
关 3/2兴 °
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
1
1
1
1
1
1
1
1
1
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
关 3/2兴
关 3/2兴
2
关 5/2兴
2
2
关 3/2兴 ⴰ
关 3/2兴 ⴰ
2
2
2
2
2
gJ
Source
of level
Term
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
778
E. B. SALOMAN
Energy levels of Xe I –Continued
Energy level
共cm⫺1兲
Parity
168 985.
179 266.
183 123.
185 000.
186 060.
186 724.
187 171.
187 498.
187 702.
188 249.
188 349.
188 384.
188 416.
1
1
1
1
1
1
1
1
1
1
1
1
1
5s5p 6 ( 2 Sⴰ1/2)6p
5s5p 6 ( 2 Sⴰ1/2)7p
5s5p 6 ( 2 Sⴰ1/2)8p
5s5p 6 ( 2 Sⴰ1/2)9p
5s5p 6 ( 2 Sⴰ1/2)10p
5s5p 6 ( 2 Sⴰ1/2)11p
5s5p 6 ( 2 Sⴰ1/2)12p
5s5p 6 ( 2 Sⴰ1/2)13p
5s5p 6 ( 2 Sⴰ1/2)14p
5s5p 6 ( 2 Sⴰ1/2)19p
5s5p 6 ( 2 Sⴰ1/2)21p
5s5p 6 ( 2 Sⴰ1/2)22p
5s5p 6 ( 2 Sⴰ1/2)23p
ⴰ
181 567.
185 415.
187 063.
188 193.
188 914.
189 376.
1
1
1
1
1
1
5p 4 ( 3 P)6s( 4 P5/2)7p
5p 4 ( 3 P)6s( 4 P5/2)8p
5p 4 ( 3 P)6s( 4 P5/2)9p
5p 4 ( 3 P)6s( 4 P5/2)10p
5p 4 ( 3 P)6s( 4 P5/2)11p
5p 4 ( 3 P)6s( 4 P5/2)12p
ⴰ
183 763.
187 498.
189 243.
190 197.
1
1
1
1
5p 4 ( 3 P)6s( 4 P3/2)7p
5p 4 ( 3 P)6s( 4 P3/2)8p
5p 4 ( 3 P)6s( 4 P3/2)9p
5p 4 ( 3 P)6s( 4 P3/2)10p
ⴰ
212 558.
213 038.
213 370.
213 607.
1
1
1
1
5p 4 ( 3 P)6p( 4 Dⴰ3/2)10d
5p 4 ( 3 P)6p( 4 Dⴰ3/2)11d
5p 4 ( 3 P)6p( 4 Dⴰ3/2)12d
5p 4 ( 3 P)6p( 4 Dⴰ3/2)13d
ⴰ
216 920.
217 543.
218 041.
218 322.
1
1
1
1
5p 4 ( 3 P)6p( 4 Sⴰ3/2)9d
5p 4 ( 3 P)6p( 4 Sⴰ3/2)10d
5p 4 ( 3 P)6p( 4 Sⴰ3/2)11d
5p 4 ( 3 P)6p( 4 Sⴰ3/2)12d
ⴰ
220 099.
220 546.
221 068.
1
1
1
5p 4 ( 1 S)5d( 2 D3/2)11p
5p 4 ( 1 S)5d( 2 D3/2)12p
5p 4 ( 1 S)5d( 2 D3/2)13p
ⴰ
224 411.
225 362.
226 035.
226 521.
226 752.
226 968.
227 102.
1
1
1
1
1
1
1
5p 4 ( 1 D)6p( 2 Fⴰ7/2)8d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)9d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)10d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)11d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)12d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)13d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)14d
ⴰ
230 234.
230 787.
231 315.
231 723.
231 879.
232 072.
232 218.
232 315.
232 391.
1
1
1
1
1
1
1
1
1
5p 4 ( 3 P)7s( 4 P1/2)10p
5p 4 ( 3 P)7s( 4 P1/2)11p
5p 4 ( 3 P)7s( 4 P1/2)12p
5p 4 ( 3 P)7s( 4 P1/2)13p
5p 4 ( 3 P)7s( 4 P1/2)14p
5p 4 ( 3 P)7s( 4 P1/2)15p
5p 4 ( 3 P)7s( 4 P1/2)16p
5p 4 ( 3 P)7s( 4 P1/2)17p
5p 4 ( 3 P)7s( 4 P1/2)18p
ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Configuration
Term
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
J
gJ
Source
of level
1
1
1
1
1
1
1
1
1
1
1
1
1
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
1
1
1
1
1
1
72COD
72COD
72COD
72COD
72COD
72COD
1
1
1
1
72COD
72COD
72COD
72COD
1
1
1
1
72COD
72COD
72COD
72COD
1
1
1
1
72COD
72COD
72COD
72COD
1
1
1
72COD
72COD
72COD
1
1
1
1
1
1
1
72COD
72COD
72COD
72COD
72COD
72COD
72COD
1
1
1
1
1
1
1
1
1
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
SPECTRAL LINES OF XENON
779
Spectral lines of Xe I
Observed
vacuum
wavelength
共Å兲
430.31
430.45
430.63
430.90
431.26
431.55
432.31
433.30
434.34
440.33
440.59
441.01
441.46
442.41
443.73
445.61
452.35
453.42
454.34
458.04
458.63
459.68
461.00
468.15
468.67
469.40
470.46
525.77
528.05
528.42
529.34
530.74
530.83
530.93
531.21
531.37
532.76
533.34
533.34
534.27
534.58
535.55
537.46
539.33
540.54
544.18
546.08
550.76
557.83
591.77
925.743
926.114
926.428
926.556
926.936
927.558
927.750
928.331
928.571
929.306
929.614
Observed
wave
number
共cm⫺1兲
232 390
232 320
232 220
232 070
231 880
231 720
231 320
230 790
230 230
227 100
226 970
226 750
226 520
226 030
225 360
224 410
221 070
220 550
220 100
218 320
218 040
217 540
216 920
213 610
213 370
213 040
212 560
190 197.
189 376.
189 243.
188 914.
188 416.
188 384.
188 349.
188 249.
188 193.
187 702.
187 498.
187 498.
187 171.
187 063.
186 724.
186 060.
185 415.
185 000.
183 763.
183 123.
181 567.
179 266.
168 985.
108 021.3
107 978.1
107 941.5
107 926.6
107 882.3
107 810.0
107 787.7
107 720.2
107 692.4
107 607.2
107 571.5
Intensity
and
comment
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a*
a*
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.07
0.07
0.07
0.1
0.07
0.07
0.05
0.1
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.02
0.05
0.03
0.02
0.03
0.03
0.02
0.02
0.02
0.02
0.05
0.05
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.03
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
72COD
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
Classification
Configuration
6
5p
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
Term
1
S
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
J
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
Term
ⴰ
4
5p ( P)7s( P1/2)18p
5p 4 ( 3 P)7s( 4 P1/2)17p
5p 4 ( 3 P)7s( 4 P1/2)16p
5p 4 ( 3 P)7s( 4 P1/2)15p
5p 4 ( 3 P)7s( 4 P1/2)14p
5p 4 ( 3 P)7s( 4 P1/2)13p
5p 4 ( 3 P)7s( 4 P1/2)12p
5p 4 ( 3 P)7s( 4 P1/2)11p
5p 4 ( 3 P)7s( 4 P1/2)10p
5p 4 ( 1 D)6p( 2 Fⴰ7/2)14d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)13d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)12d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)11d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)10d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)9d
5p 4 ( 1 D)6p( 2 Fⴰ7/2)8d
5p 4 ( 1 S)5d( 2 D3/2)13p
5p 4 ( 1 S)5d( 2 D3/2)12p
5p 4 ( 1 S)5d( 2 D3/2)11p
5p 4 ( 3 P)6p( 4 Sⴰ3/2)12d
5p 4 ( 3 P)6p( 4 Sⴰ3/2)11d
5p 4 ( 3 P)6p( 4 Sⴰ3/2)10d
5p 4 ( 3 P)6p( 4 Sⴰ3/2)9d
5p 4 ( 3 P)6p( 4 Dⴰ3/2)13d
5p 4 ( 3 P)6p( 4 Dⴰ3/2)12d
5p 4 ( 3 P)6p( 4 Dⴰ3/2)11d
5p 4 ( 3 P)6p( 4 Dⴰ3/2)10d
5p 4 ( 3 P)6s( 4 P3/2)10p
5p 4 ( 3 P)6s( 4 P5/2)12p
5p 4 ( 3 P)6s( 4 P3/2)9p
5p 4 ( 3 P)6s( 4 P5/2)11p
5s5p 6 ( 2 Sⴰ1/2)23p
5s5p 6 ( 2 Sⴰ1/2)22p
5s5p 6 ( 2 Sⴰ1/2)21p
5s5p 6 ( 2 Sⴰ1/2)19p
5p 4 ( 3 P)6s( 4 P5/2)10p
5s5p 6 ( 2 Sⴰ1/2)14p
5s5p 6 ( 2 Sⴰ1/2)13p
5p 4 ( 3 P)6s( 4 P3/2)8p
5s5p 6 ( 2 Sⴰ1/2)12p
5p 4 ( 3 P)6s( 4 P5/2)9p
5s5p 6 ( 2 Sⴰ1/2)11p
5s5p 6 ( 2 Sⴰ1/2)10p
5p 4 ( 3 P)6s( 4 P5/2)8p
5s5p 6 ( 2 Sⴰ1/2)9p
5p 4 ( 3 P)6s( 4 P3/2)7p
5s5p 6 ( 2 Sⴰ1/2)8p
5p 4 ( 3 P)6s( 4 P5/2)7p
5s5p 6 ( 2 Sⴰ1/2)7p
5s5p 6 ( 2 Sⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)20d
5p 5 ( 2 Pⴰ1/2)19d
5p 5 ( 2 Pⴰ1/2)20s
5p 5 ( 2 Pⴰ1/2)18d
5p 5 ( 2 Pⴰ1/2)19s
5p 5 ( 2 Pⴰ1/2)18s
5p 5 ( 2 Pⴰ1/2)16d
5p 5 ( 2 Pⴰ1/2)17s
5p 5 ( 2 Pⴰ1/2)15d
5p 5 ( 2 Pⴰ1/2)16s
5p 5 ( 2 Pⴰ1/2)14d
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
ⴰ
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
780
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
vacuum
wavelength
共Å兲
930.564
930.97
932.223
932.76
934.477
935.20
937.650
938.72
942.322
943.92
949.634
952.26
961.96
966.9
985.94
995.8
1025.777
1025.906
1026.223
1026.378
1026.637
1026.758
1026.946
1027.260
1027.405
1027.635
1028.020
1028.198
1028.484
1028.966
1029.186
1029.546
1030.159
1030.435
1030.902
1031.696
1032.050
1032.666
1033.724
1034.184
1035.022
1036.476
1037.087
1038.259
1040.336
1041.170
1042.613
1043.834 97
1046.123
1047.136
1050.107
1054.996
1056.128 29
1061.255 64
1068.168
1070.411
1078.584
1085.441
1099.716
1110.713
1129.310
1170.413
1192.037
Observed
wave
number
共cm⫺1兲
107 461.7
107 414.8
107 270.5
107 208.7
107 011.7
106 929.0
106 649.6
106 528.0
106 120.8
105 941.2
105 303.7
105 013.3
103 954.
103 423.
101 426.
100 422.
97 487.08
97 474.82
97 444.71
97 429.99
97 405.41
97 393.93
97 376.10
97 346.34
97 332.60
97 310.82
97 274.37
97 257.53
97 230.49
97 184.94
97 164.17
97 130.19
97 072.39
97 046.39
97 002.43
96 927.78
96 894.53
96 836.73
96 737.62
96 694.59
96 616.30
96 480.77
96 423.93
96 315.08
96 122.79
96 045.79
95 912.87
95 800.584
95 591.05
95 498.58
95 228.39
94 787.09
94 685.467
94 228.003
93 618.23
93 422.06
92 714.15
92 128.45
90 932.57
90 032.26
88 549.65
85 439.93
83 890.01
Intensity
and
comment
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0.002
0.01
0.002
0.01
0.002
0.01
0.002
0.01
0.002
0.01
0.002
0.01
0.15
0.15
0.15
0.15
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.00003
0.002
0.002
0.002
0.002
0.00003
0.00003
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
0.002
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
35BEU
35BEU
35BEU
35BEU
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
01BRA
85YOS
85YOS
85YOS
85YOS
01BRA
01BRA
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
85YOS
Classification
Configuration
6
5p
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
5p 6
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
S
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
J
Configuration
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5p 5 ( 2 Pⴰ1/2)15s
5p 5 ( 2 Pⴰ1/2)13d
5p 5 ( 2 Pⴰ1/2)14s
5p 5 ( 2 Pⴰ1/2)12d
5p 5 ( 2 Pⴰ1/2)13s
5p 5 ( 2 Pⴰ1/2)11d
5p 5 ( 2 Pⴰ1/2)12s
5p 5 ( 2 Pⴰ1/2)10d
5p 5 ( 2 Pⴰ1/2)11s
5p 5 ( 2 Pⴰ1/2)9d
5p 5 ( 2 Pⴰ1/2)10s
5p 5 ( 2 Pⴰ1/2)8d
5p 5 ( 2 Pⴰ1/2)9s
5p 5 ( 2 Pⴰ1/2)7d
5p 5 ( 2 Pⴰ1/2)8s
5p 5 ( 2 Pⴰ1/2)6d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)20d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)20s
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)19s
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)18s
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)17s
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)16s
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)15s
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)14s
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)5d
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
ⴰ
关 1/2兴
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
2
SPECTRAL LINES OF XENON
781
Spectral lines of Xe I—Continued
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
1250.210
1295.588
1469.610
79 986.56
77 185.03
68 045.26
Observed
air
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
3340.04
3348.63
3358.17
3358.96
3370.34
3383.20
3384.36
3400.07
3400.79
3418.37
3420.00
3442.66
3443.83
3443.83
3469.81
3472.36
3496.86
3506.74
3508.42
3517.90
3517.90
3533.48
3536.61
3537.35
3549.86
3554.04
3555.92
3563.80
3587.02
3591.67
3592.80
3610.32
3613.06
3633.06
3669.91
3677.54
3679.31
3685.90
3688.80
3693.49
3696.82
3702.74
3737.81
3742.22
3745.38
3745.69
3795.95
3796.30
3801.39
3801.90
3809.84
3823.74
3826.86
3835.6
29 931.15
29 854.38
29 769.57
29 762.57
29 662.08
29 549.33
29 539.20
29 402.72
29 396.50
29 245.32
29 231.38
29 038.98
29 029.12
29 029.12
28 811.77
28 790.61
28 588.90
28 508.36
28 494.71
28 417.92
28 417.92
28 292.63
28 267.59
28 261.67
28 162.08
28 128.96
28 114.09
28 051.92
27 870.34
27 834.26
27 825.50
27 690.48
27 669.48
27 517.16
27 240.87
27 184.35
27 171.27
27 122.69
27 101.37
27 066.96
27 042.58
26 999.34
26 746.0
26 714.51
26 691.97
26 689.76
26 336.39
26 333.96
26 298.70
26 295.17
26 240.37
26 144.99
26 123.67
26 064.1
Intensity
and
comment
a
a
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
0.002
0.002
0.003
85YOS
85YOS
64PET
Source
of
line
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
58THE
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
Classification
Configuration
Term
6
1
S
S
1
S
5p
5p 6
5p 6
1
J
Configuration
0
0
0
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
–
–
–
Term
ⴰ
关 1/2兴
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
2
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
1
2
2
1
1
1
1
1
2
2
2
1
1
1
1
2
2
1
1
1
1
2
2
2
2
2
1
1
1
1
2
2
2
2
1
1
1
1
5p 5 ( 2 Pⴰ3/2)15p
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)13p
5p 5 ( 2 Pⴰ3/2)13p
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)13p
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
2
关 5/2兴
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
3
3
2
3
3
2
3
3
2
2
3
3
2
1
2
3
0
3
2
2
1
0
2
1
2
3
2
2
0
2
1
3
2
2
0
2
1
2
1
3
2
1
2
2
2
1
2
3
2
1
0
2
1
2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.1
Classification
Intensity
and
comment
Configuration
111h1h1h
1
1
2
12
2
3
1*
1*
4
4
1
5
2
2*
2*
2
11
10
10
1
3
4
1
2
15
8
6
10
2
4
40
1
40
4
2
5
1
10
4
3
40
30
3
30
10
15
2
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
Term
ⴰ
关 3/2兴
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
782
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
3877.20
3877.20
3942.29
3948.163
3948.72
3950.924
3956.85
3967.5411
3974.417
3985.202
4004.55
4004.55
4078.8202
4109.7089
4116.1147
4123.55
4135.133
4146.78
4175.17
4193.01
4193.528
4203.695
4205.404
4235.03
4279.16
4279.16
4354.59
4372.287
4383.908
4385.768
4500.978
4524.6805
4543.99
4576.60
4582.7472
4611.8882
4624.2756
4662.26
4671.2258
4690.970
4697.0208
4708.21
4734.1518
4737.49
4792.619
4807.0190
4829.708
4843.2934
4916.507
4923.152
5023.88
5028.2794
5116.46
5127.24
5162.711
5164.39
5167.30
5185.85
5185.85
5206.07
5245.27
5248.98
5251.89
Observed
wave
number
共cm⫺1兲
25 784.5
25 784.5
25 358.79
25 321.068
25 317.50
25 303.374
25 265.48
25 197.399
25 153.807
25 085.736
24 964.5
24 964.5
24 509.973
24 325.759
24 287.903
24 244.1
24 176.200
24 108.30
23 944.4
23 842.50
23 839.552
23 781.895
23 772.231
23 605.9
23 362.5
23 362.5
22 957.8
22 864.901
22 804.291
22 794.619
22 211.163
22 094.812
22 000.9
21 844.16
21 814.859
21 677.021
21 618.954
21 442.8
21 401.666
21 311.588
21 284.135
21 233.55
21 117.201
21 102.3
20 859.587
20 797.101
20 699.401
20 641.341
20 333.967
20 306.521
19 899.38
19 881.9739
19 539.32
19 498.2
19 364.274
19 357.98
19 347.08
19 277.87
19 277.87
19 203.00
19 059.49
19 046.02
19 035.47
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2
2
1
1
1
2
2
2
2
2
2
2
1
1
1
1
1
1
1
2
2
2
2
2
2
2
3
1
1
1
2
2
2
2
1
2
2
1
2
2
2
1
1
2
2
1
1
1
1
1
0
1
1
2
0
1
1
1
1
1
1
1
1
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
关 5/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 7/2兴
2
关 5/2兴
2
关 7/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 7/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴
2
关 5/2兴
2
关 1/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 7/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
3
2
2
1
2
1
3
2
1
2
3
0
2
1
2
2
1
2
2
3
2
1
3
3
2
4
2
2
1
1
2
3
4
0
1
2
2
3
1
2
1
2
3
1
0
1
2
1
2
1
1
1
3
1
2
1
2
1
2
2
1
0
0.2
0.2
0.01
0.002
0.01
0.002
0.01
0.0005
0.002
0.002
0.2
0.2
0.0005
0.0005
0.0005
0.2
0.002
0.01
0.2
0.01
0.002
0.002
0.002
0.2
0.2
0.2
0.2
0.002
0.002
0.002
0.002
0.0005
0.2
0.01
0.0005
0.0005
0.0005
0.2
0.0005
0.002
0.0005
0.01
0.0005
0.2
0.002
0.0005
0.002
0.0005
0.002
0.002
0.01
0.0005
0.03
0.2
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Intensity
and
comment
Configuration
2*
2*
2
60
10
120
6
200
40
30
10*
10*
100
60
80
10
20
2
6
20
150
50hf
10
15
2*
2*
6
20
100
70
500hf
400hf
6
2E2
300hf
100
1000hf
6
2000hf
100
300hf
5
600hf
6
150hf
500hf
400
300
500hf
500
3h
200
0
6
10
1h
1h
2h*
2h*
1
4h
4h
2h
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
ⴰ
关 3/2兴
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
58THE
58THE
33HUM
34MEG
33HUM
34MEG
33HUM
34MEG
34MEG
34MEG
58THE
58THE
34MEG
34MEG
34MEG
58THE
34MEG
33HUM
58THE
33HUM
34MEG
34MEG
34MEG
58THE
58THE
58THE
58THE
34MEG
34MEG
34MEG
34MEG
34MEG
58THE
33HUM
34MEG
34MEG
34MEG
58THE
34MEG
34MEG
34MEG
33HUM
34MEG
58THE
34MEG
34MEG
34MEG
34MEG
34MEG
34MEG
33HUM
34MEG
30GRE
58THE
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
SPECTRAL LINES OF XENON
783
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
5273.48
5283.30
5286.11
5286.38
5306.37
5335.91
5337.89
5356.80
5362.244
5364.626
5367.03
5373.74
5392.795
5394.738
5397.63
5400.45
5418.02
5421.76
5435.60
5439.923
5440.39
5444.87
5454.54
5456.45
5460.037
5479.12
5481.33
5484.16
5484.46
5487.03
5488.555
5523.05
5532.78
5540.38
5540.38
5552.385
5553.10
5555.06
5557.28
5563.50
5566.615
5567.77
5575.27
5579.28
5581.784
5585.18
5594.37
5607.99
5612.65
5618.878
5621.24
5646.19
5652.84
5654.31
5664.46
5688.373
5695.750
5696.477
5698.54
5703.34
5706.87
5709.80
5712.21
Observed
wave
number
共cm⫺1兲
18 957.53
18 922.30
18 912.24
18 911.27
18 840.03
18 735.73
18 728.78
18 662.67
18 643.724
18 635.446
18 627.10
18 603.84
18 538.106
18 531.429
18 521.50
18 511.83
18 451.80
18 439.07
18 392.12
18 377.505
18 375.93
18 360.81
18 328.26
18 321.84
18 309.806
18 246.04
18 238.68
18 229.27
18 228.27
18 219.73
18 214.671
18 100.91
18 069.08
18 044.29
18 044.29
18 005.278
18 002.96
17 996.61
17 989.42
17 969.31
17 959.251
17 955.53
17 931.37
17 918.48
17 910.446
17 899.56
17 870.15
17 826.75
17 811.95
17 792.208
17 784.73
17 706.14
17 685.31
17 680.72
17 649.04
17 574.843
17 552.080
17 549.840
17 543.49
17 528.72
17 517.88
17 508.89
17 501.50
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
0
1
1
1
1
2
2
1
1
1
1
3
0
1
2
2
1
3
1
1
1
2
3
1
1
3
2
1
2
3
2
1
3
1
1
1
2
1
2
1
1
3
3
3
1
1
0
2
2
2
2
3
1
2
2
1
1
1
3
3
1
3
3
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ1/2)20s
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)14d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)14s
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
关 1/2兴
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
1
2
2
1
2
2
3
1
1
2
0
4
1
1
2
3
0
4
2
2
1
1
2
1
2
3
3
1
2
4
3
0
2
2
2
2
1
2
2
1
1
3
3
4
0
2
1
3
2
3
2
2
2
1
3
2
2
1
3
2
1
3
2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.002
0.03
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.002
0.002
0.002
0.01
0.01
0.01
0.01
0.01
Classification
Intensity
and
comment
Configuration
1h
2h
4h
3h
3
1h2h
1
15
30
6
1h100
20
1h
4h
5
2h
5h
30
15
1h
1h
2
15
1h
1h
1h
4h
6h
20h
1
2h
3h*
3h*
80
3h
12
2
100
2h
2h
40
50
16
3
15
80
1
5
2h
1h1h
40
100
80
8
1
3
10h
2
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
Term
ⴰ
关 1/2兴
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
30GRE
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
784
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
5715.716
5716.252
5722.14
5723.26
5726.10
5733.48
5740.17
5740.73
5748.20
5754.60
5792.26
5807.311
5814.505
5820.52
5823.890
5824.800
5827.72
5830.63
5840.83
5843.43
5845.46
5846.21
5849.85
5856.509
5875.018
5878.92
5889.12
5894.988
5895.62
5898.56
5904.462
5906.76
5911.90
5911.90
5916.65
5921.85
5922.550
5925.56
5931.241
5934.172
5963.28
5972.82
5974.152
5978.29
5979.42
5986.23
5989.18
5998.115
6007.909
6009.78
6014.10
6022.89
6026.76
6029.78
6029.78
6031.36
6034.92
6043.38
6048.00
6064.91
6067.52
6067.77
6093.38
Observed
wave
number
共cm⫺1兲
17 490.769
17 489.128
17 471.13
17 467.71
17 459.05
17 436.58
17 416.26
17 414.56
17 391.93
17 372.58
17 259.63
17 214.900
17 193.602
17 175.83
17 165.895
17 163.213
17 154.61
17 146.05
17 116.11
17 108.49
17 102.55
17 100.36
17 089.72
17 070.287
17 016.508
17 005.21
16 975.76
16 958.863
16 957.05
16 948.59
16 931.652
16 925.06
16 910.35
16 910.35
16 896.77
16 881.94
16 879.942
16 871.37
16 855.208
16 846.883
16 764.7
16 737.87
16 734.142
16 722.56
16 719.40
16 700.38
16 692.15
16 667.288
16 640.118
16 634.94
16 622.99
16 598.73
16 588.07
16 579.8
16 579.8
16 575.42
16 565.64
16 542.45
16 529.81
16 483.73
16 476.64
16 475.96
16 406.71
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
4
1
1
2
3
1
2
2
2
2
3
2
2
1
3
2
3
2
1
1
0
1
2
2
2
2
1
1
2
3
2
2
1
2
1
3
2
0
4
0
1
3
5
2
1
2
1
2
1
2
3
1
3
2
1
1
1
5
2
2
1
3
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.002
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.002
0.01
0.002
0.002
0.2
0.01
0.002
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.01
0.01
0.2
0.2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
34MEG
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
34MEG
34MEG
55THE
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
58THE
58THE
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
Classification
Intensity
and
comment
Configuration
Term
70
80
15h
1h
4
4h
6
1h
8h
1h
1h
15
60
25
300
150
1
20h
4h
5
1
2
3h
15
100
6
20
100
2h
8
20
3
5*
5*
4
10
20
6
80
100
4
1h
40
2
1
4
30
30
15
8
1h
1h4
15*
15*
1h2
10
6h
1h
2h
1h
3
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
关 1/2兴
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
2
2
J
Configuration
1
3
2
1
2
2
1
2
1
1
2
2
2
3
0
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
3
1
3
2
2
1
3
3
1
3
1
1
2
4
2
2
2
2
2
1
1
2
2
2
2
0
2
1
4
1
1
1
2
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)10f
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
ⴰ
关 3/2兴
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 9/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 9/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
2
SPECTRAL LINES OF XENON
785
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
6095.15
6103.88
6108.37
6111.761
6111.951
6114.86
6123.91
6126.36
6131.47
6142.13
6143.70
6144.97
6152.070
6162.16
6163.661
6163.935
6178.303
6179.665
6182.420
6184.16
6189.10
6191.40
6193.89
6195.49
6198.260
6200.892
6201.49
6205.35
6205.75
6206.297
6209.11
6220.84
6224.168
6230.81
6230.81
6242.09
6261.212
6265.302
6265.302
6268.34
6273.23
6276.99
6281.81
6286.011
6292.649
6294.45
6314.97
6318.062
6325.81
6331.50
6333.97
6337.58
6344.98
6355.77
6383.24
6407.05
6412.38
6418.41
6418.98
6421.33
6430.155
6435.01
6438.32
Observed
wave
number
共cm⫺1兲
16 401.95
16 378.49
16 366.45
16 357.369
16 356.860
16 349.08
16 324.92
16 318.39
16 304.79
16 276.49
16 272.33
16 268.97
16 250.194
16 223.59
16 219.635
16 218.914
16 181.197
16 177.630
16 170.421
16 165.87
16 152.97
16 146.97
16 140.48
16 136.31
16 129.097
16 122.251
16 120.70
16 110.67
16 109.63
16 108.211
16 100.91
16 070.55
16 061.961
16 044.8
16 044.8
16 015.84
15 966.932
15 956.509
15 956.509
15 948.78
15 936.34
15 926.80
15 914.58
15 903.941
15 887.165
15 882.62
15 831.01
15 823.263
15 803.88
15 789.68
15 783.52
15 774.53
15 756.13
15 729.39
15 661.7
15 603.5
15 590.52
15 575.88
15 574.49
15 568.8
15 547.427
15 535.7
15 527.7
Intensity
and
comment
13
8
30
40
10
5
15
1
1h
4
20hw
20
3
90
80
150
120
300
3
20
4h
1h
1
100
60
3h
6h
4
20
3
1
40
4*
4*
8
50
40*
40*
1h
10
4
5h
100
50
15
15
500
2
20
40hl
8hl
2h
20
10
30
30h
20
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2
2
2
1
3
1
0
1
0
4
1
4
2
1
2
1
1
1
2
2
1
2
2
0
1
2
1
1
1
2
2
2
2
2
2
2
3
2
0
3
3
0
4
4
3
3
1
3
1
0
2
2
3
1
4
2
1
1
1
2
2
2
2
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)19f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)18f
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)17f
关 3/2兴
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 1/2兴 ⴰ
2
关 9/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴
2
关 9/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 9/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 9/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
1
1
2
2
2
1
1
2
1
4
1
5
3
0
2
2
2
1
3
2
1
3
2
1
2
3
2
2
1
1
2
3
2
2
3
1
3
1
1
4
2
1
4
5
3
2
1
4
2
1
3
2
4
1
3
2
2
2
1
2
2
3
2
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.01
0.002
0.002
0.002
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.01
0.002
0.01
0.01
0.002
0.2
0.2
0.01
0.002
0.002
0.002
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.13
0.13
0.01
0.01
0.01
0.13
0.002
0.13
0.13
Classification
Configuration
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
Term
ⴰ
关 3/2兴
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
34MEG
34MEG
34MEG
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
34MEG
58THE
58THE
33HUM
34MEG
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
98AHM
98AHM
33HUM
33HUM
33HUM
98AHM
34MEG
98AHM
98AHM
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
786
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
6438.90
6448.70
6448.70
6450.48
6451.79
6458.71
6461.50
6469.705
6472.841
6483.63
6487.765
6497.43
6498.717
6500.37
6500.37
6504.18
6504.38
6507.50
6521.508
6533.159
6543.360
6546.12
6552.60
6552.99
6553.66
6554.196
6558.62
6559.97
6560.65
6568.39
6583.27
6590.86
6593.27
6595.561
6599.71
6601.58
6602.06
6602.87
6602.87
6604.46
6604.98
6607.41
6608.87
6621.08
6630.44
6632.464
6636.38
6648.75
6654.67
6657.92
6664.85
6665.67
6666.29
6666.965
6668.920
6676.53
6678.972
6681.036
6684.79
6684.79
6703.26
6703.62
6705.46
Observed
wave
number
共cm⫺1兲
15 526.3
15 502.72
15 502.72
15 498.44
15 495.29
15 478.7
15 472.01
15 452.385
15 444.899
15 419.2
15 409.371
15 386.45
15 383.402
15 379.49
15 379.49
15 370.48
15 370.0
15 362.64
15 329.641
15 302.303
15 278.447
15 272.01
15 256.9
15 256.0
15 254.44
15 253.188
15 242.9
15 239.76
15 238.18
15 220.2
15 185.83
15 168.34
15 162.8
15 157.526
15 148.0
15 143.7
15 142.6
15 140.75
15 140.75
15 137.1
15 135.9
15 130.34
15 127.00
15 099.1
15 077.79
15 073.190
15 064.3
15 036.27
15 022.9
15 015.56
14 999.95
14 998.1
14 996.7
14 995.188
14 990.792
14 973.7
14 968.231
14 963.607
14 955.2
14 955.2
14 914.0
14 913.2
14 909.1
Intensity
and
comment
2h*
2h*
7
10hl
3
300
150
120
30hl
100
15*
15*
200h
3E2
40
100
40
20
4
50hl
25
4h
30
20
8
100
4h*
4h*
30h
10
2
50
3
20
4
60
150
25
20
30*
30*
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2
3
3
2
3
2
0
1
1
2
1
4
1
0
4
4
1
2
1
2
2
1
2
2
2
2
1
2
2
2
1
1
1
2
1
2
2
3
3
3
3
3
2
3
2
2
3
1
3
2
4
2
2
3
1
3
1
0
2
2
3
3
3
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)16f
5p 5 ( 2 Pⴰ3/2)11s
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)15f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)13f
5p 5 ( 2 Pⴰ3/2)13f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ1/2)7p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)12f
5p 5 ( 2 Pⴰ3/2)12f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)19f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)18f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)17f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)16f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ3/2)15f
5p 5 ( 2 Pⴰ3/2)15f
5p 5 ( 2 Pⴰ3/2)11p
关 5/2兴
关 7/2兴
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 9/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 9/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 9/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
3
4
1
4
2
1
2
1
2
2
4
2
1
3
5
0
3
2
1
2
1
3
2
2
3
2
2
1
3
2
0
1
3
1
3
2
4
3
2
3
4
2
2
3
2
2
2
2
1
3
3
2
2
0
2
1
1
3
2
2
2
2
0.13
0.01
0.01
0.01
0.01
0.13
0.01
0.002
0.002
0.13
0.002
0.01
0.002
0.01
0.01
0.01
0.13
0.01
0.002
0.002
0.002
0.01
0.13
0.13
0.01
0.002
0.13
0.01
0.01
0.2
0.01
0.01
0.13
0.002
0.13
0.13
0.13
0.01
0.01
0.13
0.13
0.01
0.01
0.13
0.01
0.002
0.13
0.01
0.13
0.01
0.01
0.13
0.13
0.002
0.002
0.13
0.002
0.002
0.2
0.2
0.13
0.13
0.13
Classification
Configuration
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
ⴰ
关 3/2兴
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
98AHM
33HUM
33HUM
33HUM
33HUM
98AHM
33HUM
34MEG
34MEG
98AHM
34MEG
33HUM
34MEG
33HUM
33HUM
33HUM
98AHM
33HUM
34MEG
34MEG
34MEG
33HUM
98AHM
98AHM
33HUM
34MEG
98AHM
33HUM
33HUM
58THE
33HUM
33HUM
98AHM
34MEG
98AHM
98AHM
98AHM
33HUM
33HUM
98AHM
98AHM
33HUM
33HUM
98AHM
33HUM
34MEG
98AHM
33HUM
98AHM
33HUM
33HUM
98AHM
98AHM
34MEG
34MEG
98AHM
34MEG
34MEG
58THE
58THE
98AHM
98AHM
98AHM
SPECTRAL LINES OF XENON
787
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
6706.46
6708.25
6708.25
6708.25
6712.93
6712.93
6712.93
6719.39
6721.38
6728.008
6728.57
6736.14
6736.50
6751.93
6752.79
6767.12
6777.57
6778.60
6808.12
6815.64
6818.38
6827.315
6840.96
6841.50
6841.50
6844.27
6844.84
6846.613
6848.82
6850.13
6860.19
6863.20
6865.58
6866.838
6872.107
6882.155
6910.82
6922.22
6924.67
6925.53
6935.62
6936.69
6949.76
6961.10
6976.182
6982.05
6991.65
7003.10
7019.02
7034.80
7035.53
7047.37
7047.37
7049.07
7049.36
7051.06
7072.44
7078.46
7119.598
7136.57
7172.70
7192.42
7200.79
Observed
wave
number
共cm⫺1兲
14 906.88
14 902.9
14 902.9
14 902.9
14 892.5
14 892.5
14 892.5
14 878.2
14 873.8
14 859.138
14 857.9
14 841.2
14 840.4
14 806.5
14 804.6
14 773.26
14 750.48
14 748.24
14 684.3
14 668.09
14 662.19
14 643.006
14 613.80
14 612.65
14 612.65
14 606.73
14 605.52
14 601.733
14 597.03
14 594.24
14 572.83
14 566.44
14 561.39
14 558.726
14 547.564
14 526.325
14 466.07
14 442.25
14 437.14
14 435.35
14 414.35
14 412.12
14 385.02
14 361.6
14 330.536
14 318.49
14 298.83
14 275.45
14 243.08
14 211.13
14 209.65
14 185.78
14 185.78
14 182.36
14 181.77
14 178.36
14 135.5
14 123.473
14 041.866
14 008.472
13 937.910
13 899.7
13 883.539
Intensity
and
comment
1
3*
3*
3*
3*
3*
3*
200
f
10
50
40
5
12
15
200
8
20*
20*
1
2h
60
50
30
40
20
5
50
100
300
30
8
15
100
50
8
1E2
20
100
30
1
4
30
3
20
30*
30*
1h
1h
3
30
1
500
15
10
4
15
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2
3
3
3
3
3
3
3
2
1
2
3
3
2
2
1
1
1
2
0
1
0
2
3
3
3
3
2
3
2
4
0
4
2
4
2
1
1
2
2
2
2
1
3
3
3
1
3
3
3
2
2
2
1
2
1
2
1
3
2
4
2
1
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ1/2)8 f
5p 5 ( 2 Pⴰ1/2)8 f
5p 5 ( 2 Pⴰ1/2)8 f
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)14f
5p 5 ( 2 Pⴰ3/2)14f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)7 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ1/2)11s
5p 5 ( 2 Pⴰ1/2)5d
关 3/2兴
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 9/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 9/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
4
3
3
2
3
3
2
3
1
2
2
2
3
2
2
2
1
3
1
1
1
3
4
3
2
3
2
4
1
4
1
3
2
5
3
1
2
2
3
2
1
3
4
3
2
0
2
3
2
1
2
3
1
2
2
3
2
4
1
3
1
2
0.01
0.2
0.2
0.2
0.2
0.2
0.2
0.13
0.13
0.002
0.13
0.13
0.13
0.13
0.13
0.01
0.01
0.01
0.2
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.002
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.2
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.2
0.01
0.002
0.01
0.01
0.2
0.01
Classification
Configuration
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6p
Term
ⴰ
关 3/2兴
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
33HUM
58THE
58THE
58THE
58THE
58THE
58THE
98AHM
98AHM
34MEG
98AHM
98AHM
98AHM
98AHM
98AHM
33HUM
33HUM
33HUM
58THE
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
58THE
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
58THE
33HUM
34MEG
33HUM
33HUM
58THE
33HUM
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
788
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
7209.14
7220.24
7222.64
7238.20
7244.94
7244.94
7249.92
7250.87
7257.94
7262.54
7266.49
7283.961
7285.301
7307.37
7313.01
7316.272
7316.87
7319.94
7321.452
7323.05
7336.480
7355.58
7382.57
7386.003
7393.793
7400.41
7404.51
7405.77
7424.05
7441.94
7451.00
7472.01
7474.01
7492.23
7501.13
7514.54
7514.96
7559.79
7570.93
7584.29
7584.680
7589.61
7594.36
7600.77
7604.97
7608.46
7609.82
7642.024
7642.30
7643.91
7664.02
7664.56
7666.61
7670.81
7740.31
7762.15
7783.66
7789.42
7790.53
7802.651
7804.64
7825.55
7832.98
Observed
wave
number
共cm⫺1兲
13 867.458
13 846.139
13 841.5
13 811.783
13 798.934
13 798.934
13 789.456
13 787.649
13 774.218
13 765.494
13 758.011
13 725.012
13 722.488
13 681.045
13 670.494
13 664.398
13 663.282
13 657.551
13 654.731
13 651.751
13 626.761
13 591.377
13 541.7
13 535.394
13 521.134
13 509.044
13 501.564
13 499.267
13 466.028
13 433.657
13 417.322
13 379.595
13 376.015
13 343.486
13 327.655
13 303.871
13 303.128
13 224.240
13 204.781
13 181.521
13 180.843
13 172.281
13 164.042
13 152.941
13 145.677
13 139.647
13 137.299
13 081.938
13 081.465
13 078.710
13 044.392
13 043.473
13 039.985
13 032.846
12 915.825
12 879.5
12 843.892
12 834.395
12 832.566
12 812.631
12 809.4
12 775.1
12 763.022
Intensity
and
comment
5
1
20
3
20*
20*
2
5h
60
20
25
40
60
5h
1h
70
20
15
80
2
50
40
30
100
150
30
12
3
20
20
25
40
25
20
20
8
3
40
6
10
200
6
1
10
2h
5
3
500hf
100
10
30
10
1
40
4
50
15
1
100
10
30
10
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2
2
2
2
3
3
3
3
3
1
1
1
1
3
3
1
1
2
1
2
2
0
3
1
2
2
2
0
2
2
1
1
1
3
2
1
0
4
4
4
4
1
3
3
3
3
3
0
2
2
3
2
2
2
2
1
2
2
2
2
2
2
1
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ1/2)6 f
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)6d
关 3/2兴
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 9/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴
2
关 9/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 5/2兴
2
关 9/2兴
2
关 9/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 9/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴
2
关 3/2兴 ⴰ
2
1
3
3
4
3
2
3
4
2
1
2
2
4
4
2
1
3
1
2
3
1
4
2
3
2
1
1
2
3
2
2
1
3
2
0
1
4
3
4
5
1
3
4
3
2
4
1
2
3
2
2
1
2
1
2
3
2
3
1
1
3
1
0.01
0.01
0.2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.002
0.01
0.01
0.002
0.01
0.002
0.01
0.2
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.2
0.01
0.01
0.01
0.002
0.2
0.2
0.01
Classification
Configuration
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
ⴰ
关 3/2兴
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
33HUM
33HUM
58THE
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
34MEG
33HUM
33HUM
34MEG
33HUM
34MEG
33HUM
58THE
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
58THE
33HUM
33HUM
33HUM
34MEG
55THE
58THE
33HUM
SPECTRAL LINES OF XENON
789
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
7841.23
7881.320
7887.393
7937.41
7954.22
7967.342
7976.03
8003.26
8009.59
8029.67
8029.67
8040.56
8042.18
8057.258
8061.339
8064.94
8073.99
8097.24
8101.98
8107.91
8109.46
8118.29
8123.29
8165.37
8171.02
8182.93
8196.73
8206.336
8231.6336
8266.520
8280.1162
8297.71
8323.90
8324.58
8346.8217
8347.45
8349.05
8371.38
8372.79
8392.37
8402.03
8409.1894
8437.55
8450.37
8469.55
8501.02
8522.55
8530.10
8553.97
8559.36
8564.7
8576.01
8624.24
8648.54
8692.20
8696.86
8709.64
8711.54
8739.372
8758.20
8819.4106
8851.44
8862.32
Observed
wave
number
共cm⫺1兲
12 749.593
12 684.740
12 674.974
12 595.103
12 568.486
12 547.786
12 534.118
12 491.473
12 481.6
12 450.388
12 450.388
12 433.525
12 431.021
12 407.758
12 401.477
12 395.939
12 382.045
12 346.492
12 339.269
12 330.244
12 327.888
12 314.479
12 306.899
12 243.476
12 235.010
12 217.203
12 196.634
12 182.357
12 144.9184
12 093.665
12 073.8065
12 048.206
12 010.298
12 009.317
11 977.3164
11 976.415
11 974.120
11 942.180
11 940.169
11 912.312
11 898.616
11 888.4857
11 848.526
11 830.551
11 803.8
11 760.063
11 730.355
11 719.972
11 687.267
11 679.9
11 672.6
11 657.232
11 592.040
11 559.470
11 501.408
11 495.246
11 478.378
11 475.875
11 439.328
11 414.736
11 335.5135
11 294.495
11 280.630
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
0
1
0
1
3
2
3
4
3
2
3
4
2
2
1
1
4
2
3
4
2
1
2
2
2
1
2
1
0
2
1
1
2
1
2
3
2
1
2
1
2
1
2
2
1
1
2
2
2
0
2
1
2
3
2
3
2
3
3
3
1
0.01
0.002
0.002
0.01
0.01
0.002
0.01
0.01
0.2
0.01
0.01
0.01
0.01
0.002
0.002
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.0005
0.002
0.0005
0.01
0.01
0.01
0.0005
0.01
0.01
0.01
0.01
0.01
0.01
0.0005
0.01
0.01
0.2
0.01
0.01
0.01
0.01
0.2
0.1
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.002
0.01
0.0005
0.01
0.01
33HUM
34MEG
34MEG
33HUM
33HUM
34MEG
33HUM
33HUM
58THE
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
34MEG
34MEG
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
58THE
33HUM
33HUM
33HUM
33HUM
55THE
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
34MEG
33HUM
33HUM
Classification
Intensity
and
comment
Configuration
Term
15
100
300hf
40
4
500hf
8
10
30
100*
100*
10
15
200
150
2
1
3
100
6
15
15
2
2
100
12
700
10 000hf
500
7000hf
15
2
20
2000
60
40
3
5
20
5
2000hf
10
1h
10
1
30
30
2
4
1200
80
250
100
200
40
2
300
100
5000hf
1
300
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
关 5/2兴
关 5/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
2
J
Configuration
3
2
1
0
1
0
2
1
2
3
3
3
3
3
3
3
0
1
3
3
3
3
3
2
2
1
1
0
2
1
1
2
2
0
1
1
1
2
2
2
2
2
1
2
1
3
0
2
1
3
1
1
2
1
1
2
2
2
1
2
2
3
1
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)8 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)5 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6d
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
ⴰ
关 5/2兴
关 3/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 9/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 9/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
790
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
8885.71
8908.73
8930.83
8952.2509
8952.78
8981.05
8987.57
9025.98
9032.18
9045.4466
9096.13
9112.24
9131.59
9141.8
9152.12
9162.6520
9167.52
9197.18
9203.20
9211.38
9216.51
9222.39
9245.18
9301.95
9306.64
9334.08
9374.02
9374.76
9412.01
9441.46
9442.68
9445.34
9497.07
9505.78
9513.377
9585.14
9605.80
9616.95
9668.94
9685.32
9700.99
9710.03
9718.16
9799.697
9923.198
9966.58
10 023.72
10 023.72
10 056.84
10 057.96
10 060.96
10 084.79
10 107.34
10 119.8
10 125.47
10 188.36
10 251.07
10 323.9
10 420.52
10 484.83
10 507.91
10 515.15
10 527.857
10 549.76
Observed
wave
number
共cm⫺1兲
11 250.936
11 221.863
11 194.094
11 167.3092
11 166.649
11 131.500
11 123.424
11 076.09
11 068.49
11 052.2523
10 990.67
10 971.24
10 947.99
10 935.76
10 923.43
10 910.8763
10 905.08
10 869.91
10 862.80
10 853.16
10 847.12
10 840.20
10 813.48
10 747.48
10 742.07
10 710.49
10 664.86
10 664.01
10 621.81
10 588.68
10 587.31
10 584.33
10 526.68
10 517.03
10 508.632
10 429.95
10 407.52
10 395.46
10 339.56
10 322.07
10 305.40
10 295.81
10 287.19
10 201.600
10 074.634
10 030.78
9 973.602
9 973.602
9 940.756
9 939.649
9 936.685
9 913.205
9 891.089
9 878.91
9 873.378
9 812.433
9 752.406
9 683.61
9 593.821
9 534.976
9 514.033
9 507.483
9 496.007
9 476.29
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
3
1
1
1
1
3
2
1
0
2
3
3
3
3
1
1
2
1
1
1
1
3
0
4
1
4
4
4
3
2
2
2
2
2
3
2
2
1
2
2
3
2
1
2
1
2
3
3
3
3
3
0
3
3
1
2
1
3
1
1
1
0
2
1
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)4 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)5 f
关 5/2兴
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 7/2兴
2
关 5/2兴
2
关 9/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 1/2兴
2
关 5/2兴
2
关 9/2兴
2
关 9/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴
2
关 7/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 9/2兴
2
关 3/2兴
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
0
1
2
2
3
2
1
1
2
4
3
4
2
2
1
3
2
2
1
2
2
1
4
1
3
4
5
3
2
2
3
2
1
4
1
1
0
3
3
2
2
2
1
2
2
4
3
2
2
3
1
4
2
0
3
2
2
1
0
2
1
2
2
0.01
0.01
0.01
0.0005
0.01
0.01
0.01
0.02
0.02
0.0005
0.02
0.02
0.02
0.1
0.02
0.0005
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.002
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.002
0.002
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.1
0.02
0.02
0.02
0.2
0.02
0.02
0.02
0.02
0.003
0.03
Classification
Intensity
and
comment
Configuration
10
200
200
1000hf
50
100
200
30
50
400hf
50
4
3
2
20
500
100
2
30
25
1
5
3
30
40
3
10
100
60
20
20
80
40
10
200
20
3
1
1
150
20
2
100
2000
3000
10
50*
50*
1
5
10
20
80
1
20
10
20
20
1
8
6
10
900
20
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
ⴰ
关 7/2兴
关 1/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
34MEG
34MEG
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
33HUM
58THE
33HUM
33HUM
33HUM
33HUM
00MIS
35MEG
SPECTRAL LINES OF XENON
791
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
10 706.78
10 758.86
10 838.34
10 895.324
11 085.237
11 127.189
11 130.81
11 141.145
11 162.67
11 175.5
11 214.89
11 289.10
11 309.56
11 415.04
11 491.22
11 537.4
11 614.08
11 742.236
11 793.56
11 857.31
11 857.86
11 874.36
11 912.10
11 951.1
11 953.00
12 084.80
12 203.54
12 235.24
12 257.81
12 272.88
12 409.1
12 451.21
12 590.00
12 623.40
13 331.9
13 470.8
13 543.16
13 656.48
13 814.4
13 919.6
14 050.7
14 128.1
14 142.09
14 215.6
14 241.39
14 354.6
14 364.90
14 384.78
14 424.2
14 424.2
14 424.2
14 503.4
14 659.84
14 732.38
14 742.3
14 811.5
14 850.0
15 060.1
15 099.7
15 277.7
15 291.8
15 328.9
15 418.01
15 491.0
Observed
wave
number
共cm⫺1兲
9337.32
9292.12
9223.98
9175.736
9018.537
8984.535
8981.61
8973.281
8955.98
8945.70
8914.28
8855.68
8839.66
8757.97
8699.91
8665.09
8607.88
8513.935
8476.88
8431.31
8430.92
8419.20
8392.53
8365.14
8363.81
8272.59
8192.1
8170.88
8155.832
8145.8
8056.4
8029.15
7940.64
7919.629
7498.8
7421.5
7381.78
7320.53
7236.8
7182.1
7115.1
7076.2
7069.16
7032.6
7019.87
6964.5
6959.51
6949.9
6930.9
6930.9
6930.9
6893.0
6819.49
6785.91
6781.3
6749.6
6732.2
6638.2
6620.8
6543.7
6537.7
6521.9
6484.15
6453.6
Classification
Intensity
and
comment
Configuration
Term
150
100
1000
870
1900
375
8
120
10
1
5
10
5
15
15
1
25
1750
10
6
2
1
2
1
3
3
5
5
1
2
20:
2
26
5
75:
5:
5
150
10:
15:
5:
50:
80
?:
40
4:
20
3
15:*
15:*
15:*
10:
5
200
25:
10:
20:
10:
100:
4:
5:
4:
110
45:
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
关 3/2兴
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
2
J
Configuration
2
1
1
1
2
2
2
0
2
2
2
1
2
1
1
1
0
3
3
3
0
3
1
1
2
4
3
1
0
2
2
2
1
1
3
1
3
2
2
2
1
2
2
2
1
2
1
1
2
3
1
1
2
3
1
2
3
2
1
2
3
1
1
2
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ1/2)6p
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
J
ⴰ
关 1/2兴
关 1/2兴
2
关 1/2兴
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 9/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 9/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
2
1
1
1
2
3
2
3
1
1
3
1
0
2
1
2
0
1
4
3
4
1
2
1
2
2
3
2
1
1
3
1
2
1
2
3
1
2
1
2
2
0
3
2
2
2
1
2
1
3
4
2
1
1
2
2
3
2
1
1
3
2
1
1
1
Uncertainty of
observed
wavelength
共Å兲
0.03
0.03
0.03
0.004
0.004
0.004
0.03
0.004
0.03
0.1
0.03
0.03
0.03
0.03
0.03
0.1
0.03
0.004
0.03
0.03
0.03
0.03
0.03
0.1
0.03
0.03
0.5
0.03
0.03
0.5
0.1
0.1
0.03
0.1
0.1
0.1
0.1
0.1
0.5
0.1
0.1
0.1
Source
of
line
35MEG
35MEG
35MEG
00MIS
00MIS
00MIS
35MEG
00MIS
35MEG
35MEG
35MEG
35MEG
35MEG
35MEG
35MEG
35MEG
35MEG
00MIS
35MEG
35MEG
35MEG
35MEG
35MEG
35MEG
35MEG
35MEG
49SIT
35MEG
35MEG
49SIT
73HUM
52HUM
52HUM
35MEG
73HUM
73HUM
52HUM
52HUM
73HUM
73HUM
73HUM
73HUM
52HUM
73HUM
52HUM
60HUM
52HUM
49SIT
73HUM
73HUM
73HUM
73HUM
52HUM
52HUM
73HUM
73HUM
73HUM
73HUM
73HUM
60HUM
73HUM
60HUM
52HUM
73HUM
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
792
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
air
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Classification
Intensity
and
comment
Configuration
Term
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)4 f
关 1/2兴
关 5/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
15 518.3
15 557.1
15 722.6
15 866.5
15 979.5
16 039.9
16 052.02
16 554.5
16 665.1
16 728.158
16 745.721
16 834.5
16 883.078
17 140.6
17 325.798
17 365.117
17 482.971
17 661.030
18 272.880
18 481.190
18 788.146
18 791.65
19 466.68
6442.2
6426.2
6358.5
6300.9
6256.3
6232.7
6228.04
6039.0
5999.0
5976.312
5970.044
5938.5
5921.473
5832.5
5770.164
5757.099
5718.290
5660.638
5471.097
5409.430
5321.052
5320.06
5135.58
10:
150:
5:
5:
250:
100:
50
125:
2:
5000
46
15:
38
5:
1650
22
42
9
8
19
860
3
4
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
Configuration
20 192.711
20 267.774
20 287.972
20 599.091
20 848.409
20 857.615
21 378.892
21 475.961
22 275.9
22 392.5
22 412.9
22 624.5
22 748.1
22 748.1
22 971.1
23 028.7
23 079.8
23 111.6
23 198.
23 259.1
23 285.9
23 450.0
23 803.0
23 941.1
24 450.3
24 709.0
24 783.0
24 832.2
25 152.8
25 166.3
25 419.7
25 827.9
4952.282
4933.941
4929.029
4854.583
4796.529
4794.412
4677.511
4656.369
4489.2
4465.8
4461.7
4420.0
4396.0
4396.0
4353.3
4342.4
4332.8
4326.8
4310.72
4299.4
4294.4
4264.4
4201.2
4176.9
4089.9
4047.1
4035.0
4027.03
3975.7
3973.6
3934.0
3871.8
80
2300
10
11
7
6
26
140
60:
40:
75:
90:
5:*
5:*
40:
10:
45:
8:
10
35:
110:
35:
60:
30:
70:
60:
30:
20
175:
60:
45:
30:
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
2
2
J
Configuration
1
2
1
1
3
1
2
3
2
2
1
2
3
4
2
3
2
2
1
1
0
2
2
5p 5 ( 2 Pⴰ1/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)10d
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
J
ⴰ
关 1/2兴
关 5/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 9/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴 ⴰ
2
2
0
2
2
1
2
2
1
3
1
2
0
3
2
5
1
4
3
2
2
2
1
3
1
Classification
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
J
关 3/2兴 ⴰ
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
1
1
3
1
1
1
2
1
1
4
1
1
3
3
3
1
1
2
2
1
2
3
1
3
2
2
2
3
3
2
1
0
2
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
Term
J
关 1/2兴
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 9/2兴
2
关 5/2兴
2
关 1/2兴
2
关 7/2兴
2
关 7/2兴
2
关 9/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
0
1
2
1
2
2
1
2
1
5
2
0
4
3
4
2
0
2
3
2
3
3
1
3
1
3
2
3
4
2
2
1
2
2
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
0.009
0.009
0.009
0.009
0.010
0.010
0.011
0.5
0.5
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
52HUM
73HUM
60HUM
00MIS
00MIS
73HUM
00MIS
73HUM
00MIS
00MIS
00MIS
00MIS
00MIS
00MIS
00MIS
49SIT
49SIT
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
0.1
0.008
0.008
0.009
0.012
0.012
0.012
0.013
0.013
0.013
0.014
0.014
0.8
0.8
00MIS
00MIS
00MIS
00MIS
00MIS
00MIS
00MIS
00MIS
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
61HEP
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
61HEP
73HUM
73HUM
73HUM
73HUM
SPECTRAL LINES OF XENON
793
Spectral lines of Xe I—Continued
Observed
vacuum
wavelength
共Å兲
26 027.8
26 050.6
26 275.9
26 478.8
26 517.7
26 608.3
27 304.8
27 304.8
27 750.8
28 096.4
28 123.2
28 389.3
28 466.6
28 590.0
28 704.5
29 029.1
29 054.7
29 392.4
29 456.1
29 553.2
29 657.7
29 821.7
29 993.2
30 030.1
30 261.4
30 431.9
30 483.7
30 512.4
30 802.6
30 863.6
31 077.7
31 284.5
31 344.5
31 616.5
32 301.9
32 364.4
32 590.8
32 748.2
32 751.8
32 751.8
33 274.6
33 536.1
33 576.7
33 576.7
33 675.9
34 023.9
34 084.1
34 340.0
34 753.5
35 038.3
35 079.9
35 092.9
35 092.9
35 256.5
35 701.6
36 054.9
36 219.1
36 241.6
36 518.5
36 624.7
36 798.8
36 858.8
36 858.8
37 218.8
Observed
wave
number
共cm⫺1兲
3842.0
3838.7
3805.77
3776.6
3771.07
3758.2
3662.4
3662.4
3603.5
3559.2
3555.8
3522.5
3512.9
3497.7
3483.8
3444.8
3441.8
3402.2
3394.9
3383.7
3371.8
3353.3
3334.1
3330.0
3304.5
3286.0
3280.4
3277.4
3246.5
3240.1
3217.7
3196.5
3190.3
3162.9
3095.8
3089.8
3068.3
3053.6
3053.3
3053.3
3005.3
2981.9
2978.3
2978.3
2969.5
2939.1
2933.9
2912.1
2877.4
2854.0
2850.6
2849.6
2849.6
2836.4
2801.0
2773.5
2761.0
2759.3
2738.34
2730.4
2717.48
2713.1
2713.1
2686.8
Intensity
and
comment
50:
10:
60
8:
30
8:
30:*
30:*
15:
15:
50:
250:
8:
750:
15:
8:
75:
300:
150:
20:
100:
100:
75:
12:
600:
60:
1500:
100:
500:
15:
6000:
80:
125:
550:
100:
70:
12:
1800:
*
*
75:
22:
50:*
50:*
3500:
150:
90:
170:
75:
5000:
?:*
?:*
110:
30:
20:
250:
150:
100
1
250
17*
17*
1*
Classification
Configuration
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9p
Term
ⴰ
关 1/2兴
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴
2
关 5/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
2
J
Configuration
Term
J
0
1
2
2
0
0
2
0
1
2
2
3
2
2
2
2
2
1
2
1
1
4
1
2
1
0
2
3
1
3
2
3
2
2
2
2
1
1
1
2
1
2
3
2
1
1
1
1
1
0
2
1
3
3
2
1
2
0
2
3
1
2
2
1
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)15p
5p 5 ( 2 Pⴰ3/2)13d
关 3/2兴
关 1/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
1
1
2
1
1
1
2
1
1
2
1
2
2
2
3
1
1
0
3
1
2
3
2
3
1
1
3
3
2
3
3
2
1
2
2
1
2
2
2
2
1
3
2
2
2
1
0
2
2
1
3
1
4
2
2
2
2
1
1
3
1
2
3
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Uncertainty of
observed
wavelength
共Å兲
0.8
0.8
3
3
10
1
4
1
3
3
4
Source
of
line
73HUM
73HUM
61HEP
73HUM
61HEP
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
64AGO
64AGO
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
64FAU
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
73HUM
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
794
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
vacuum
wavelength
共Å兲
37 218.8
37 264.8
38 508.2
38 678.89
38 690.73
38 696.845
38 737.73
38 748.607
38 878.77
38 950.396
38 959.66
38 973.07
39 165.126
39 209.7
39 263.8
39 295.4
39 299.5
39 334.1
39 334.1
39 483.93
39 529.86
39 635.1
39 770.11
39 816.6
39 821.85
39 906.6
39 965.646
39 967.00
39 967.00
40 050.5
40 050.5
40 070.69
40 070.69
40 207.116
40 549.3
40 672.6
40 769.003
41 198.4
41 230.1
41 526.0
41 780.5
41 831.3
42 183.6
42 232.1
42 232.1
42 367.3
42 575.0
42 820.9
43 009.9
43 424.2
43 460.8
43 484.6
43 668.0
44 086.8
44 086.8
44 524.5
44 732.4
44 732.4
44 784.6
45 132.0
45 194.6
45 251.3
45 393.2
45 422.0
Observed
wave
number
共cm⫺1兲
2686.8
2683.5
2596.8
2585.39
2584.60
2584.19
2581.46
2580.74
2572.10
2567.37
2566.76
2565.87
2553.29
2550.39
2546.9
2544.8
2544.6
2542.3
2542.3
2532.68
2529.73
2523.0
2514.45
2511.5
2511.18
2505.9
2502.15
2502.06
2502.06
2496.8
2496.8
2495.59
2495.59
2487.12
2466.1
2458.7
2452.84
2427.3
2425.4
2408.13
2393.5
2390.55
2370.6
2367.87
2367.87
2360.3
2348.80
2335.31
2325.0
2302.9
2300.9
2299.66
2290.0
2268.3
2268.3
2246.0
2235.52
2235.52
2232.91
2215.72
2212.65
2209.88
2202.97
2201.58
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
3
3
2
5
4
2
1
2
2
3
5
4
1
3
2
3
2
2
1
3
2
1
3
2
2
4
1
3
4
1
3
3
4
1
2
2
2
1
1
1
2
2
2
3
4
1
0
3
4
1
1
1
1
0
2
2
2
1
1
1
1
2
2
2
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)14s
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)13s
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)11f
5p 5 ( 2 Pⴰ3/2)19d
5p 5 ( 2 Pⴰ3/2)11p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5d
5p 5 ( 2 Pⴰ3/2)4 f
关 5/2兴
关 5/2兴 ⴰ
2
关 5/2兴
2
关 9/2兴 ⴰ
2
关 9/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 11/2兴 ⴰ
2
关 11/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴
2
关 1/2兴 ⴰ
2
关 9/2兴 ⴰ
2
关 9/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
2
3
5
4
3
2
1
3
3
6
5
1
3
1
3
3
3
2
4
3
0
3
3
2
3
0
4
5
2
3
3
4
1
2
3
2
2
2
2
1
2
1
3
3
2
1
2
4
2
1
2
1
1
3
1
3
2
2
2
1
1
2
2
4
4
4
1
1
1
1
1
1
1
1
1
1
2
4
4
4
4
4
1
1
4
1
4
1
4
1
1
1
4
4
1
1
1
4
4
1
4
4
3
4
3
4
3
3
4
3
3
4
4
4
3
4
4
4
4
4
4
4
4
4
4
2
4
Classification
Intensity
and
comment
Configuration
1*
2
1
22
18
200
150
250
350
25 000
1400
1100
28
1
1
2
1
2*
2*
400
200
2
7
1
4
1
2500
1200*
1200*
1*
1*
30*
30*
33
2
1
18
0
3
30
1
20
1
30*
30*
1
15
30
1
1
1
25
6
1*
1*
9
3*
3*
2
1
1
1
50
2
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7s
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)6d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
ⴰ
关 5/2兴
关 5/2兴
2
关 3/2兴 ⴰ
2
关 9/2兴
2
关 9/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 9/2兴
2
关 9/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 7/2兴
2
关 7/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
72MOR
72MOR
72MOR
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
67HUM
63HUM
72MOR
72MOR
72MOR
72MOR
72MOR
67HUM
67HUM
72MOR
67HUM
72MOR
67HUM
72MOR
67HUM
67HUM
67HUM
72MOR
72MOR
67HUM
67HUM
67HUM
72MOR
72MOR
67HUM
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
SPECTRAL LINES OF XENON
795
Spectral lines of Xe I—Continued
Observed
vacuum
wavelength
共Å兲
45 482.5
45 706.0
45 731.8
45 802.9
45 802.9
45 802.9
45 887.9
45 938.5
46 022.9
46 108.7
46 209.3
46 229.5
46 252.7
46 252.7
46 301.5
46 396.8
46 396.8
46 418.1
46 598.4
46 706.5
46 739.7
46 739.7
46 751.9
46 751.9
46 810.8
46 830.6
46 918.8
46 957.4
47 053.2
47 053.2
47 086.7
47 108.0
47 122.8
47 191.1
47 212.7
47 212.7
47 262.8
47 341.0
47 358.0
47 406.8
47 451.3
47 501.8
47 544.7
47 586.9
47 630.2
47 630.2
47 677.3
47 677.3
47 707.2
47 707.2
47 707.2
47 735.3
47 768.2
47 785.2
47 796.6
47 842.2
47 862.0
47 868.4
47 868.4
47 942.3
47 952.9
48 047.3
48 088.9
48 107.6
Observed
wave
number
共cm⫺1兲
2198.65
2187.90
2186.66
2183.27
2183.27
2183.27
2179.22
2176.82
2172.83
2168.79
2164.07
2163.12
2162.04
2162.04
2159.76
2155.32
2155.32
2154.33
2146.00
2141.03
2139.51
2139.51
2138.95
2138.95
2136.26
2135.36
2131.34
2129.59
2125.25
2125.25
2123.74
2122.78
2122.11
2119.04
2118.07
2118.07
2115.83
2112.33
2111.58
2109.40
2107.42
2105.18
2103.28
2101.42
2099.51
2099.51
2097.43
2097.43
2096.12
2096.12
2096.12
2094.89
2093.44
2092.70
2092.20
2090.20
2089.34
2089.06
2089.06
2085.84
2085.38
2081.28
2079.48
2078.67
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2
1
3
3
3
3
1
2
3
1
2
2
1
2
1
0
1
3
1
2
2
6
1
2
4
1
2
2
1
2
3
3
3
3
2
2
1
3
2
1
2
3
3
1
3
2
3
4
1
2
3
2
3
2
4
0
0
2
2
3
1
2
2
3
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)18d
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)17f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)7p
5p 5 ( 2 Pⴰ1/2)7p
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)7 f
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)15f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9 f
5p 5 ( 2 Pⴰ3/2)18s
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)14f
5p 5 ( 2 Pⴰ3/2)16f
5p 5 ( 2 Pⴰ3/2)17d
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)13d
关 5/2兴
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 7/2兴
2
关 7/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 9/2兴
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 7/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 9/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴 ⴰ
3
1
4
3
3
4
2
1
2
2
2
1
2
3
2
1
2
3
1
2
1
5
1
2
3
1
1
1
1
1
3
2
2
3
2
2
2
3
3
0
2
3
4
1
3
1
2
4
0
2
4
1
2
1
3
1
1
1
2
2
2
2
3
3
3
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
Classification
Intensity
and
comment
Configuration
Term
30
7
1
1*
1*
1*
1
1
1
1
2
1
1*
1*
1
1*
1*
1
2
8
1*
1*
1*
1*
1
1
2
1
1*
1*
1
2
1
1
6*
6*
2
1
1
1
1
2
1
2
1*
1*
1*
1*
1*
1*
1*
1
1
1
1
3
2
1*
1*
2
1
1
1
1*
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)9s
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)15s
5p 5 ( 2 Pⴰ3/2)15s
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)5g
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)6 f
关 3/2兴
关 3/2兴
2
关 5/2兴
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 11/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 9/2兴
2
关 3/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴
2
关 1/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴
2
2
ⴰ
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
796
E. B. SALOMAN
Spectral lines of Xe I—Continued
Observed
vacuum
wavelength
共Å兲
48 107.6
48 107.6
48 142.3
48 142.3
48 191.4
48 240.9
48 336.0
48 374.3
48 436.7
48 488.6
48 536.0
48 637.2
48 643.9
48 739.2
48 868.4
48 899.6
48 899.6
48 949.5
48 979.6
49 028.2
49 028.2
49 028.2
49 052.1
49 088.7
49 110.2
49 110.2
49 201.4
49 274.5
49 322.9
49 322.9
49 379.6
49 480.5
49 480.5
49 669.7
49 681.6
49 723.8
49 787.4
49 838.8
49 922.0
49 922.0
50 021.7
50 122.2
50 243.8
50 328.5
50 413.2
50 647.9
50 674.7
50 674.7
50 674.7
50 674.7
50 756.7
50 779.3
50 883.8
50 984.2
51 039.8
51 039.8
51 140.3
51 176.6
51 308.4
51 521.2
51 665.5
51 721.3
52 035.2
52 105.0
Observed
wave
number
共cm⫺1兲
2078.67
2078.67
2077.18
2077.18
2075.06
2072.93
2068.85
2067.21
2064.55
2062.34
2060.33
2056.04
2055.76
2051.74
2046.31
2045.01
2045.01
2042.92
2041.67
2039.64
2039.64
2039.64
2038.65
2037.13
2036.24
2036.24
2032.46
2029.45
2027.46
2027.46
2025.13
2021.00
2021.00
2013.30
2012.82
2011.11
2008.54
2006.47
2003.12
2003.12
1999.13
1995.12
1990.30
1986.95
1983.61
1974.42
1973.37
1973.37
1973.37
1973.37
1970.18
1969.31
1965.26
1961.39
1959.26
1959.26
1955.41
1954.02
1949.00
1940.95
1935.53
1933.44
1921.78
1919.20
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
1
2
1
1
3
3
2
2
2
2
1
1
1
2
3
2
2
2
2
2
3
2
4
3
4
4
1
2
2
3
1
2
1
1
4
3
2
2
1
3
3
2
2
1
2
2
2
3
2
2
3
2
4
3
1
3
3
5
3
1
3
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
3
3
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
3
4
4
4
4
4
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
Classification
Intensity
and
comment
Configuration
Term
1*
1*
1*
1*
1
2
2
1
1
1
1
1
1
1
1
1*
1*
2
1
1*
1*
1*
2
1
1*
1*
8
1
13*
13*
1
1*
1*
1
1
1
1
1
2*
2*
2
1
1
1
1
1
2*
2*
2*
2*
1
1
1
2
1*
1*
1
3
40
1
1
1
1
6*
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ1/2)6s
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)7d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ1/2)6p
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)16s
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)10s
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)10p
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6d
关 7/2兴
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 1/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 7/2兴 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
2
2
J
Configuration
4
1
2
2
1
4
2
2
2
1
1
2
1
1
1
3
1
1
1
1
1
3
2
3
2
3
4
0
1
2
3
1
3
2
2
3
3
1
3
2
2
4
2
1
2
3
3
2
2
3
2
2
2
3
2
1
2
2
4
3
2
3
3
3
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)13d
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ3/2)8s
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)14f
5p 5 ( 2 Pⴰ3/2)14f
5p 5 ( 2 Pⴰ3/2)14p
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)16d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)11d
5p 5 ( 2 Pⴰ3/2)6p
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)17s
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ1/2)7p
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)14s
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)18p
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)10f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)15d
5p 5 ( 2 Pⴰ3/2)10d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)12p
5p 5 ( 2 Pⴰ3/2)4 f
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
ⴰ
关 7/2兴
关 3/2兴
2
关 3/2兴
2
关 1/2兴 ⴰ
2
关 1/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 1/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 5/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
关 7/2兴
2
关 1/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 9/2兴
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 5/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 1/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 7/2兴
2
关 5/2兴
2
关 5/2兴
2
关 5/2兴
2
关 3/2兴
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 9/2兴
2
关 7/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 5/2兴 ⴰ
2
关 5/2兴
2
关 7/2兴
2
2
SPECTRAL LINES OF XENON
797
Spectral lines of Xe I—Continued
Observed
vacuum
wavelength
共Å兲
52 105.0
52 115.4
52 115.4
52 225.9
52 315.0
52 999.2
53 129.2
54 447.2
112 970.
185 140.
Observed
wave
number
共cm⫺1兲
1919.20
1918.82
1918.82
1914.76
1911.50
1886.82
1882.20
1836.64
885.19
540.13
Intensity
and
comment
6*
1*
1*
1
1
1
1
4
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
3
2
2
2
1
4
3
3
4
3
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)12s
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)8d
5p 5 ( 2 Pⴰ3/2)9d
5p 5 ( 2 Pⴰ3/2)12d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ1/2)5d
关 7/2兴
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 5/2兴
2
关 9/2兴
2
关 5/2兴 ⴰ
2
关 3/2兴 ⴰ
3
2
2
2
2
3
3
4
3
2
4
4
4
4
4
4
4
4
10
10
Classification
Configuration
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)9p
5p 5 ( 2 Pⴰ1/2)5d
5p 5 ( 2 Pⴰ3/2)8p
5p 5 ( 2 Pⴰ3/2)5 f
5p 5 ( 2 Pⴰ3/2)6 f
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)6d
5p 5 ( 2 Pⴰ3/2)4 f
5p 5 ( 2 Pⴰ3/2)4 f
Term
ⴰ
关 7/2兴
关 3/2兴
2
关 3/2兴 ⴰ
2
关 3/2兴
2
关 3/2兴
2
关 9/2兴
2
关 7/2兴 ⴰ
2
关 7/2兴 ⴰ
2
关 9/2兴
2
关 5/2兴
2
2
4.2. Xe II
I isoelectronic sequence
Ground state
ⴰ
1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 105s 2 5p 5 2 P3/2
⫺1
Ionization energy 169 175⫾30 cm 共20.975 0⫾0.003 7
eV兲 关87HAN兴
A thorough analysis of the spectrum of singly ionized xenon, Xe II, was published in 1987 by Hansen and Persson
关87HAN兴. Using lines from the earlier published work of
Boyce 关36BOY兴 and Humphreys 关39HUM兴 and Humphreys’s unpublished compilation 关81HUM兴 which included
later work by him and by Boyce, they obtained a set of
energy levels which we use here and a line compilation. Due
to disagreements with the earlier work and with privately
communicated interferometric data by D. A. Jackson, neither
Hansen and Persson nor we chose to utilize the interferometric measurements made by Humphreys and Paul 关70HUM兴
on 136Xe II. Hansen and Persson 关87HAN兴 concluded that the
measurements by Humphreys and Paul and/or that by Jackson had incorrect interference order determinations which
made their results unreliable.
In this compilation we use the energy levels determined by
Hansen and Persson 关87HAN兴. In compiling our Xe II line
list we used as source material their compilation which provided the Humphreys and Boyce lists from 关36BOY兴,
关39HUM兴, and 关81HUM兴 but does not include 关70HUM兴. In
addition we included lines from several works by Gallardo
and co-workers who studied xenon in energetic excitation in
laser tube type sources 关81GAL兴, 关82REY兴, 关83BER兴,
关93GAL兴. Only lines unambiguously assigned to Xe II in
these papers were considered. We also considered lines observed by Zielińska et al. 关02ZIE兴. The sources of the Xe II
lines are summarized in Table 4. The priority for inclusion of
duplicate lines was first 关87HAN兴 then 关93GAL兴 then
关02ZIE兴 and then 关83BER兴, 关82REY兴, and 关81GAL兴. All candidate lines were passed through a program to determine if
they correspond to a transition between the known Xe II levels. Only classifiable lines are included in our compilation.
Many other lines are listed in the references but are not included since we cannot be sure that they are from Xe II when
they do not fit the known levels.
Transition probability calculations utilizing the Cowan
–
–
–
–
–
–
–
–
–
–
2
2
Source
of
line
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
72MOR
64FAU
64FAU
codes 关81COW兴 with empirically adjusted configuration average energies are used to help resolve choices between multiple possible classifications of lines. Some of the lines that
appear in the energetic sources of Gallardo and co-workers
may not be seen in more conventional sources. We include
these lines in our list. Also the lines observed from these
sources may well be shifted by the high fields in the sources.
Intensities have been taken from the stated sources.
From Hansen and Persson 关87HAN兴 we use the wavelength from the gentler ‘‘LC’’ excitation rather than the ‘‘C’’
excitation when both values are given. Since more intensities
for ‘‘C’’ excitation are available, we use these intensity values. If only ‘‘LC’’ intensity is quoted, we use that value and
add a ‘‘∧’’ to the intensity in the line table to indicate that
this was done.
The intensity codes given in the Xe II line table are taken
from the specified sources. Their meaning is stated below:
Symbol
Definition
b
d
h
H
a
c
l
s
w
blend
double
hazy
very hazy
asymmetric
affected 共by兲
unsymmetrical-shaded to longer wavelength
unsymmetrical-shaded to shorter wavelength
wide
*
two or more classifications of this line share
the same intensity
∧
see explanation in preceding paragraph
The values of g J included in the Xe II level table were
compiled by Hansen and Persson 关87HAN兴 with one additional value 关87SCH兴. The uncertainty of the additional value
has been included in parentheses.
References
36BOY
J. C. Boyce, Phys. Rev. 49, 730 共1936兲.
39HUM
C. J. Humphreys, J. Res. Nat. Bur. Stand. 22, 19
共1939兲.
70HUM
C. J. Humphreys and E. Paul, Jr., J. Opt. Soc.
Am. 60, 1454 共1970兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
798
E. B. SALOMAN
TABLE 4. Sources of Xe II lines
Source
Number of
classifications
Light source
Wavelength range
共Å兲
Uncertainty
共Å兲
81GAL
82REY
83BER
87HAN
1
39
106
939
energetic excitation in laser-tube-like source
energetic excitation in laser-tube-like source
energetic excitation in laser-tube-like source
compilation from work of Humphreys and of Boyce 共see text兲
3048
2040– 4180
2172– 6744
675–10 221
93GAL
02ZIE
28
2
0.01
0.01–0.05
0.05
0.01–0.05 for 2 d.p. lines
0.1 for 1 d.p. lines
0.01
0.02 共estimate兲
81COW
81GAL
81HUM
82REY
energetic excitation in laser-tube-like source
high-current hollow cathode
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
M. Gallardo and J. G. Reyna Almandos, Xenon
Lines in the Range from 2000 Å to 7000 Å, Serie
‘‘Monografias Cientificas’’ No. 1 共Centro de
Investigaciones Opticas, La Plata, 1981兲.
C. J. Humphreys, Compilation of the Spectra of
Ionized Xenon, 1981 共unpublished兲.
J. G. Reyna Almandos, M. Gallardo, and M.
Garavaglia, Opt. Pura Apl. 15, 1 共1982兲.
2021– 6757
10 914 –11 117
83BER
G. Bertuccelli, J. G. Reyna Almandos, O. Di
Rocco, and M. Gallardo, Opt. Pura Apl. 16, 163
共1983兲.
J. E. Hansen and W. Persson, Phys. Scr. 36, 602
共1987兲.
T. J. Scholl, S. D. Rosner, and R. A. Holt, Phys.
Rev. A 35, 1611 共1987兲.
M. Gallardo, M. Raineri, and J. G. Reyna
Almandos, Spectrosc. Lett. 26, 1241 共1993兲.
S. Zielińska, Ł. Bratasz, and K. Dzierżȩga,
Phys. Scr. 66, 454 共2002兲.
87HAN
87SCH
93GAL
02ZIE
Energy levels of Xe II
Energy level
共cm⫺1兲
Parity
0.00
10 537.01
1
1
5p 5
5p 5
2 ⴰ
2 ⴰ
3/2
1/2
90 873.83
0
5s5p 6
2
S
1/2
2.02
87HAN
Configuration
Term
P
P
J
gJ
Source
of level
87HAN
87HAN
93 068.44
95 064.38
101 157.48
102 799.07
106 906.12
109 563.14
112 924.84
129 248.39
0
0
0
0
0
0
0
0
5p ( P2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P0 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 1 S0 )6s
关2兴
关2兴
关0兴
关1兴
关1兴
关2兴
关2兴
关0兴
5/2
3/2
1/2
3/2
1/2
5/2
3/2
1/2
1.56
1.38
2.43
1.59
1.79
1.33
0.95
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
95 396.74
95 437.67
96 033.48
96 858.18
99 404.99
101 535.67
104 250.06
105 313.33
105 947.55
106 475.21
107 381.74
107 904.50
108 007.28
108 423.07
111 326.96
112 703.64
114 751.08
114 905.15
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
关2兴
关3兴
关2兴
关1兴
关4兴
关4兴
关1兴
关1兴
关0兴
关3兴
关2兴
关1兴
关2兴
关3兴
关2兴
关2兴
关3兴
关4兴
5/2
7/2
3/2
1/2
9/2
7/2
1/2
3/2
1/2
5/2
3/2
3/2
5/2
7/2
3/2
5/2
5/2
9/2
1.36
1.420共14兲
1.18
0.50
1.31
1.11
0.56
1.15
1.36
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
4 3
0.67
1.20
1.22
1.15
1.24
1.13
1.10
1.10
SPECTRAL LINES OF XENON
799
Energy levels of Xe II—Continued
Energy level
共cm⫺1兲
gJ
Source
of level
Parity
Configuration
Term
J
114 913.98
119 085.49
120 853.16
124 070.06
124 301.96
127 010.80
127 527.30
135 060.97
136 569.63
138 062.59
0
0
0
0
0
0
0
0
0
0
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 S0 )5d
5p 4 ( 1 S0 )5d
关4兴
关3兴
关3兴
关1兴
关2兴
关1兴
关2兴
关0兴
关2兴
关2兴
7/2
5/2
7/2
3/2
5/2
1/2
3/2
1/2
5/2
3/2
111 792.17
111 958.89
113 512.36
113 672.89
113 705.40
116 783.09
120 414.87
121 179.80
121 628.82
123 112.54
123 254.60
124 289.45
124 571.09
128 867.20
129 667.35
130 063.96
131 923.79
132 207.76
132 741.15
148 224.69
149 191.69
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 S0 )6p
5p 4 ( 1 S0 )6p
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关0兴ⴰ
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴ⴰ
3/2
5/2
5/2
1/2
7/2
3/2
1/2
1/2
3/2
5/2
3/2
3/2
1/2
5/2
3/2
7/2
3/2
5/2
1/2
1/2
3/2
1.61
1.47
1.28
1.50
1.40
1.37
0.56
2.08
1.28
1.39
1.35
1.32
1.16
0.92
1.40
1.15
0.90
1.20
0.71
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
132 518.82
133 189.42
140 883.42
142 382.13
142 929.90
149 697.24
149 802.80
0
0
0
0
0
0
0
5p 4 ( 3 P2 )7s
5p 4 ( 3 P2 )7s
5p 4 ( 3 P0 )7s
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )7s
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )7s
关2兴
关2兴
关0兴
关1兴
关1兴
关2兴
关2兴
5/2
3/2
1/2
3/2
1/2
5/2
3/2
1.53
1.40
2.25
1.59
1.05
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
135 507.32
135 547.13
135 708.32
136 109.65
136 554.11
136 597.81
138 726.59
139 094.28
139 640.43
144 140.16
144 384.90
145 222.72
145 587.61
145 940.34
146 305.54
146 927.86
148 085.19
152 708.92
152 806.73
153 584.09
153 585.71
153 978.37
154 032.42
154 382.83
154 608.07
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P0 )6d
5p 4 ( 3 P0 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
关3兴
关2兴
关2兴
关4兴
关1兴
关4兴
关0兴
关3兴
关1兴
关2兴
关2兴
关1兴
关3兴
关2兴
关2兴
关3兴
关1兴
关4兴
关4兴
关1兴
关3兴
关3兴
关2兴
关1兴
关2兴
7/2
5/2
3/2
9/2
1/2
7/2
1/2
5/2
3/2
3/2
5/2
1/2
7/2
3/2
5/2
5/2
3/2
7/2
9/2
3/2
5/2
7/2
5/2
1/2
3/2
1.39
1.33
1.33
1.28
0.94
1.14
1.86
1.14
1.14
0.83
1.21
0.38
1.27
1.04
1.30
0.98
1.07
0.92
1.11
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
0.95
2.03
1.00
1.02
1.14
1.05
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
800
E. B. SALOMAN
Energy levels of Xe II—Continued
Energy level
共cm⫺1兲
Configuration
Term
J
138 967.87
139 005.27
139 182.58
139 498.46
139 782.0
139 903.63
140 029.99
140 185.67
140 209.99
140 335.09
147 517.71
147 569.10
148 375.10
148 585.89
148 951.80
149 280.40
149 682.65
149 800.20
155 463.41
156 128.46
156 201.84
156 235.80
156 302.13
157 102.56
157 221.03
157 416.58
157 432.63
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
关4兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关5兴ⴰ
关5兴ⴰ
关4兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关4兴ⴰ
关2兴ⴰ
关4兴ⴰ
关3兴ⴰ
关3兴ⴰ
关1兴ⴰ
关5兴ⴰ
关5兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关4兴ⴰ
关4兴ⴰ
9/2
7/2
5/2
3/2
11/2
9/2
7/2
1/2
5/2
3/2
5/2
7/2
3/2
9/2
5/2
7/2
7/2
5/2
3/2
11/2
9/2
5/2
3/2
7/2
5/2
9/2
7/2
139 128.78
139 193.80
139 645.98
139 733.89
140 011.58
140 986.89
1
1
1
1
1
1
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关1兴ⴰ
关2兴ⴰ
5/2
3/2
5/2
7/2
1/2
3/2
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
147 310.54
147 564.38
157 091.9
157 368.5
0
0
0
0
5p 4 ( 3 P2 )8s
5p 4 ( 3 P2 )8s
5p 4 ( 3 P1 )8s
5p 4 ( 3 P1 )8s
关2兴
关2兴
关1兴
关1兴
5/2
3/2
3/2
1/2
87HAN
87HAN
87HAN
87HAN
150 096.85
150 211.76
1
1
5p 4 ( 3 P2 )5 f
5p 4 ( 3 P2 )5 f
关5兴ⴰ
关5兴ⴰ
11/2
9/2
87HAN
87HAN
151 442.28
151 446.61
151 451.30
151 452.61
151 498.90
151 500.96
151 522.5
151 522.63
151 564.44
151 564.61
159 617.11
159 617.54
161 238.07
161 238.22
161 257.45
161 354.15
161 354.8
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P0 )5g
5p 4 ( 3 P0 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
关5兴
关4兴
关5兴
关4兴
关3兴
关3兴
关6兴
关6兴
关2兴
关2兴
关4兴
关4兴
关3兴
关3兴
关5兴
关4兴
关4兴
9/2
7/2
11/2
9/2
7/2
5/2
13/2
11/2
3/2
5/2
7/2
9/2
5/2
7/2
11/2
7/2
9/2
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
155 828.73
155 842.04
1
1
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P2 )6 f
关5兴ⴰ
关5兴ⴰ
11/2
9/2
87HAN
87HAN
156 872.9
156 873.84
156 875.52
0
0
0
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
关5兴
关5兴
关4兴
11/2
9/2
7/2
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
gJ
Source
of level
Parity
1.09
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
801
Energy levels of Xe II—Continued
Energy level
共cm⫺1兲
Source
of level
Parity
Configuration
Term
J
gJ
156 876.96
156 902.5
156 904.21
156 913.68
156 913.8
0
0
0
0
0
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
关4兴
关3兴
关3兴
关6兴
关6兴
9/2
5/2
7/2
11/2
13/2
87HAN
87HAN
87HAN
87HAN
87HAN
160 143.92
160 162.9
160 164.2
0
0
0
5p 4 ( 3 P2 )7g
5p 4 ( 3 P2 )7g
5p 4 ( 3 P2 )7g
关5兴
关6兴
关6兴
11/2
13/2
11/2
87HAN
87HAN
87HAN
Spectral lines of Xe II
Observed
vacuum
wavelength
共Å兲
675.295
677.666
680.645
692.588
699.660
702.342
716.129
718.936
720.839
724.303
732.266
732.266
740.406
750.815
755.321
758.508
767.203
773.689
774.572
784.152
784.152
787.343
793.553
803.066
804.504
806.009
839.740
842.388
854.778
858.580
871.458
880.802
885.544
887.280
898.255
912.716
925.866
926.741
931.260
935.405
939.186
943.859
949.544
959.230
972.769
976.678
988.555
Observed
wave
number
共cm⫺1兲
148 083.
147 565.
146 919.
144 386.
142 927.
142 381.
139 639.6
139 094.4
138 727.2
138 063.8
136 562.4
136 562.4
135 061.0
133 188.6
132 394.0
131 837.8
130 343.6
129 250.9
129 103.6
127 526.3
127 526.3
127 009.4
126 015.5
124 522.8
124 300.2
124 068.1
119 084.5
118 710.1
116 989.4
116 471.4
114 750.2
113 532.9
112 924.9
112 704.0
111 327.0
109 563.1
108 007.0
107 905.0
107 381.4
106 905.6
106 475.2
105 948.0
105 313.7
104 250.3
102 799.3
102 387.9
101 157.8
Intensity
and
comment
3
1
5b?
1
0
2
2
3
2
2
2d*
2d*
2
2
0
6bXe IV
0
1
5
4*
4*
5
0
1
7
4
5
6
6d
4b
7
5
3
8
0
8
5
3
5
5cXe IV
6
3
7
7
6
5
8
Term
J
Uncertainty of
observed
wavelength
共Å兲
关1兴
关2兴
关3兴
关2兴
关1兴
关1兴
关1兴
关3兴
关0兴
关2兴
关2兴
关1兴
关0兴
关2兴
关1兴
关1兴
关0兴
关0兴
关1兴
关2兴
关2兴
关1兴
关1兴
关0兴
关2兴
关1兴
关3兴
关0兴
关2兴
关1兴
关3兴
关1兴
关2兴
关2兴
关2兴
关2兴
关2兴
关1兴
关2兴
关1兴
关3兴
关0兴
关1兴
关1兴
关1兴
关2兴
关0兴
3/2
3/2
5/2
5/2
1/2
3/2
3/2
5/2
1/2
3/2
5/2
1/2
1/2
3/2
1/2
3/2
1/2
1/2
3/2
3/2
3/2
1/2
1/2
1/2
5/2
3/2
5/2
1/2
3/2
1/2
5/2
3/2
3/2
5/2
3/2
5/2
5/2
3/2
3/2
1/2
5/2
1/2
3/2
1/2
3/2
3/2
1/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
5
5p
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
Term
2 ⴰ
P
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
J
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
1/2
1/2
1/2
3/2
1/2
3/2
1/2
3/2
1/2
1/2
3/2
3/2
3/2
1/2
1/2
1/2
3/2
1/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
1/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P1 )6d
5p 4 ( 3 P2 )8s
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )6d
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 S0 )5d
5p 4 ( 1 S0 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )7s
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )7s
5p 4 ( 3 P0 )7s
5p 4 ( 1 S0 )6s
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 1 S0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 S0 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P0 )6s
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
802
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
Term
J
Uncertainty of
observed
wavelength
共Å兲
关2兴
关1兴
关1兴
关2兴
关1兴
关2兴
关0兴
关2兴
关2兴
关1兴
关2兴
关1兴
2
S
关0兴
关1兴
关2兴
关2兴
2
S
关4兴ⴰ
关5兴ⴰ
3/2
3/2
1/2
3/2
1/2
3/2
1/2
5/2
3/2
1/2
5/2
3/2
1/2
1/2
1/2
3/2
3/2
1/2
9/2
11/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
Source
of
line
93GAL
93GAL
82REY
82REY
87HAN
82REY
82REY
82REY
82REY
82REY
93GAL
82REY
82REY
82REY
82REY
82REY
93GAL
93GAL
82REY
93GAL
82REY
82REY
93GAL
83BER
82REY
82REY
93GAL
83BER
83BER
82REY
82REY
82REY
82REY
83BER
83BER
Classification
Configuration
5
5p
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 5
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
Term
2 ⴰ
J
992.165
1027.050
1032.438
1032.596
1037.680
1041.306
1048.120
1048.272
1051.920
1067.088
1074.476
1083.860
1100.432
1103.515
1158.474
1169.633
1183.053
1244.756
1881.485
1972.673
100 789.7
97 366.2
96 858.1
96 843.3
96 368.8
96 033.3
95 408.9
95 395.1
95 064.3
93 713.0
93 068.6
92 262.8
90 873.4
90 619.5
86 320.5
85 496.9
84 527.1
80 337.0
53 149.5
50 692.6
6
5
3
5
6
10
2c
8
10
6
12
5
10
0
5
2
8
5
0
0
Observed
air
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
Configuration
Term
J
2021.14
2036.16
2040.42
2043.46
2053.697
2065.55
2068.33
2069.95
2076.32
2102.84
2108.24
2117.21
2120.61
2124.73
2128.73
2138.85
2142.25
2146.31
2153.08
2154.90
2166.05
2167.84
2170.40
2171.64
2176.23
2178.25
2192.78
2193.48
2193.48
2208.24
2214.37
2215.58
2222.76
2224.29
2224.29
49 461.1
49 096.3
48 993.8
48 920.9
48 677.1
48 397.8
48 332.8
48 294.9
48 146.8
47 539.7
47 417.9
47 217.0
47 141.3
47 049.9
46 961.5
46 739.4
46 665.2
46 576.9
46 430.5
46 391.3
46 152.5
46 114.4
46 060.0
46 033.7
45 936.6
45 894.0
45 590.0
45 575.4
45 575.4
45 270.8
45 145.5
45 120.9
44 975.1
44 944.2
44 944.2
1
0a
0
0a
0
0
0a
0
1
0
0a
1
1
2
1
1
0
0
0a
1
1
1
1
2
2
0
0
1*
1*
3
3
2
3
0*
0*
5s5p 6
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
2
S
关2兴
关3兴
关2兴
关4兴
关1兴
关1兴
关2兴
关4兴
关2兴
关3兴
关0兴
关2兴
关4兴
关2兴
关2兴
关2兴
关2兴
关2兴
关1兴
关1兴
关2兴
关2兴
关4兴
关2兴
关2兴
关2兴
关2兴ⴰ
关1兴
关2兴
关2兴
关2兴
关2兴
关2兴ⴰ
关2兴ⴰ
1/2
5/2
7/2
3/2
7/2
3/2
3/2
5/2
7/2
5/2
7/2
1/2
5/2
7/2
5/2
5/2
5/2
5/2
5/2
3/2
3/2
5/2
5/2
7/2
5/2
3/2
5/2
3/2
3/2
3/2
3/2
3/2
3/2
5/2
5/2
P
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
关3兴
关4兴
2 ⴰ
1/2
1/2
3/2
1/2
1/2
3/2
1/2
3/2
3/2
1/2
3/2
1/2
3/2
1/2
1/2
1/2
1/2
1/2
7/2
9/2
Configuration
4 3
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5p ( P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6s
5s5p 6
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5s5p 6
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )5 f
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )5 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )8s
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
关1兴ⴰ
关3兴ⴰ
关4兴ⴰ
关2兴ⴰ
关5兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关5兴ⴰ
关2兴ⴰ
关2兴ⴰ
关4兴ⴰ
关4兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴
关3兴
3/2
7/2
9/2
3/2
9/2
3/2
5/2
3/2
7/2
7/2
9/2
3/2
5/2
9/2
7/2
3/2
7/2
5/2
3/2
3/2
5/2
5/2
5/2
7/2
7/2
5/2
3/2
1/2
3/2
3/2
5/2
1/2
3/2
7/2
5/2
0.01
0.01
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.01
0.05
0.05
0.01
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
Classification
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Source
of
line
SPECTRAL LINES OF XENON
803
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
2224.59
2225.99
2230.79
2232.83
2234.99
2235.52
2239.79
2241.86
2245.61
2247.17
2248.22
2249.86
2254.74
2256.56
2256.82
2256.82
2259.22
2261.33
2262.95
2264.20
2264.99
2265.62
2265.94
2266.80
2268.72
2273.18
2273.37
2282.60
2283.14
2285.24
2285.94
2287.92
2290.84
2292.01
2292.40
2294.57
2296.52
2299.36
2299.98
2304.60
2307.28
2308.15
2313.70
2314.21
2314.21
2316.27
2316.80
2319.70
2321.54
2335.42
2342.18
2344.47
2350.10
2350.70
2351.18
2351.56
2352.06
2353.52
2353.89
2356.25
Observed
wave
number
共cm⫺1兲
44 938.1
44 909.9
44 813.2
44 772.3
44 729.0
44 718.4
44 633.2
44 592.0
44 517.52
44 486.62
44 465.8
44 433.44
44 337.28
44 301.5
44 296.4
44 296.4
44 249.4
44 208.1
44 176.44
44 152.05
44 136.65
44 124.4
44 118.1
44 101.4
44 064.1
43 977.6
43 973.97
43 796.17
43 785.8
43 745.6
43 732.19
43 694.3
43 638.7
43 616.4
43 608.96
43 567.72
43 530.73
43 477.0
43 465.25
43 378.1
43 327.75
43 311.4
43 207.53
43 198.0
43 198.0
43 159.6
43 149.72
43 095.78
43 061.6
42 805.7
42 682.2
42 640.50
42 538.4
42 527.5
42 518.8
42 512.0
42 502.9
42 476.5
42 469.9
42 427.3
Intensity
and
comment
2
2
1h
2
1
2
1
2h
1
1
1
4
1
1h
2*
2*
1h
0
2
2
3
3h
2h
3h
1h
1
3
0b
5
2h
8
2
2h
2b
20
15
30
2h
6
1h
3
3
5
1b*
1b*
2
10
7
0
2h
3h
12
0a
0
4h
4h
1
1h
1h
1h
Term
J
Uncertainty of
observed
wavelength
共Å兲
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关4兴ⴰ
关3兴ⴰ
关4兴ⴰ
关4兴ⴰ
关3兴ⴰ
关3兴ⴰ
关5兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关4兴ⴰ
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴
关3兴
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关4兴ⴰ
关4兴ⴰ
关2兴ⴰ
关1兴ⴰ
关4兴ⴰ
关4兴ⴰ
关4兴ⴰ
关4兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴ⴰ
3/2
5/2
5/2
5/2
7/2
5/2
7/2
7/2
5/2
5/2
9/2
3/2
7/2
3/2
7/2
5/2
5/2
5/2
5/2
1/2
3/2
3/2
5/2
3/2
5/2
1/2
1/2
3/2
5/2
5/2
5/2
1/2
5/2
5/2
7/2
7/2
9/2
3/2
3/2
3/2
1/2
5/2
7/2
7/2
5/2
3/2
5/2
5/2
3/2
7/2
7/2
3/2
3/2
7/2
7/2
9/2
9/2
5/2
5/2
3/2
0.05
0.05
0.02
0.05
0.05
0.05
0.05
0.02
0.01
0.01
0.05
0.01
0.01
0.02
0.05
0.05
0.02
0.05
0.01
0.01
0.01
0.02
0.02
0.02
0.02
0.05
0.01
0.01
0.05
0.02
0.01
0.05
0.02
0.05
0.01
0.01
0.01
0.02
0.01
0.02
0.01
0.05
0.01
0.05
0.05
0.05
0.01
0.01
0.05
0.02
0.02
0.01
0.05
0.05
0.02
0.02
0.05
0.02
0.02
0.02
Classification
Configuration
4 3
5p ( P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
Term
关2兴
关2兴
关2兴
关3兴
关2兴
关1兴
关2兴
关3兴
关2兴
关1兴
关3兴
关2兴
关2兴
关2兴
关3兴
关2兴
关2兴
关3兴
关2兴
关2兴
关2兴
关1兴
关2兴
关2兴
关2兴
关2兴
关1兴
关2兴
关2兴
关3兴
关2兴
关1兴ⴰ
关1兴
关2兴
关2兴
关3兴
关3兴
关1兴
关2兴
关2兴
关1兴
关2兴
关3兴
关3兴ⴰ
关3兴ⴰ
关2兴
关2兴
关2兴
关1兴
关3兴
关3兴
关1兴
关2兴
关4兴
关4兴
关4兴
关4兴
关3兴
关3兴
关0兴
J
5/2
3/2
5/2
7/2
5/2
3/2
5/2
7/2
5/2
3/2
7/2
3/2
5/2
3/2
7/2
3/2
5/2
7/2
3/2
3/2
3/2
1/2
3/2
5/2
3/2
3/2
1/2
5/2
5/2
7/2
5/2
1/2
3/2
3/2
5/2
7/2
7/2
1/2
3/2
3/2
1/2
3/2
5/2
7/2
7/2
3/2
3/2
3/2
3/2
5/2
5/2
1/2
3/2
9/2
7/2
9/2
7/2
5/2
5/2
1/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 1 S0 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )8s
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
Source
of
line
82REY
82REY
87HAN
82REY
82REY
82REY
82REY
87HAN
93GAL
93GAL
82REY
87HAN
93GAL
87HAN
83BER
83BER
87HAN
83BER
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
83BER
93GAL
93GAL
82REY
87HAN
87HAN
83BER
87HAN
82REY
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
82REY
87HAN
83BER
83BER
83BER
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
82REY
82REY
87HAN
87HAN
82REY
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
804
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
2356.72
2360.42
2362.90
2364.13
2364.63
2368.68
2369.03
2369.62
2379.11
2385.85
2386.14
2387.75
2391.10
2392.33
2398.76
2404.84
2405.92
2409.74
2410.72
2419.50
2420.87
2421.27
2422.12
2422.94
2425.05
2432.72
2435.47
2438.76
2441.60
2442.54
2442.78
2446.79
2466.60
2468.43
2470.18
2475.89
2478.82
2479.40
2489.11
2490.76
2491.78
2509.98
2517.06
2523.67
2523.97
2524.46
2526.79
2526.98
2530.18
2538.02
2551.70
2553.79
2554.20
2561.48
2572.93
2572.93
2576.97
2584.88
2597.01
2598.42
Observed
wave
number
共cm⫺1兲
42 418.88
42 352.4
42 307.9
42 285.9
42 277.0
42 204.71
42 198.5
42 187.97
42 019.7
41 901.01
41 895.9
41 867.67
41 809.02
41 787.5
41 675.52
41 570.2
41 551.5
41 485.64
41 468.77
41 318.3
41 294.9
41 288.10
41 273.61
41 259.64
41 223.75
41 093.78
41 047.39
40 992.02
40 944.3
40 928.6
40 924.6
40 857.5
40 529.4
40 499.34
40 470.65
40 377.32
40 329.59
40 320.2
40 162.88
40 136.28
40 119.85
39 829.0
39 716.9
39 612.9
39 608.2
39 600.52
39 564.01
39 561.03
39 511.00
39 389.0
39 177.80
39 145.7
39 139.46
39 028.23
38 854.6
38 854.6
38 793.65
38 674.94
38 494.31
38 473.42
Intensity
and
comment
4h
1h
0b
0
0
5
0
4h
0
1
2h
4
2
2h
4
1
3h
40
7
0
2b
20h
2
10
40h
12
6
12h
1
1H
0
2h
5
5
100
4
1
50
20
5
0
1
0
1
3
12
12
2
3h
3
0
12
0*
0*
15
1
4
2
Term
J
Uncertainty of
observed
wavelength
共Å兲
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关5兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关5兴ⴰ
关5兴ⴰ
关4兴ⴰ
关3兴ⴰ
关5兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关5兴ⴰ
关5兴ⴰ
关4兴ⴰ
关2兴ⴰ
关5兴ⴰ
关2兴ⴰ
关5兴ⴰ
关3兴ⴰ
关1兴ⴰ
关4兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关4兴ⴰ
关3兴ⴰ
关3兴
关3兴ⴰ
关4兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关4兴ⴰ
关3兴ⴰ
5/2
7/2
5/2
3/2
1/2
5/2
7/2
7/2
7/2
3/2
5/2
1/2
3/2
9/2
7/2
5/2
3/2
5/2
3/2
1/2
9/2
9/2
7/2
7/2
11/2
7/2
5/2
3/2
5/2
9/2
11/2
7/2
5/2
9/2
3/2
11/2
7/2
1/2
9/2
5/2
7/2
3/2
7/2
5/2
5/2
7/2
9/2
7/2
5/2
5/2
3/2
7/2
5/2
1/2
3/2
1/2
3/2
5/2
7/2
5/2
0.01
0.02
0.05
0.05
0.05
0.01
0.05
0.01
0.05
0.01
0.02
0.01
0.01
0.02
0.01
0.05
0.02
0.01
0.01
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.05
0.05
0.05
0.02
0.01
0.01
0.01
0.01
0.05
0.01
0.01
0.01
0.05
0.05
0.05
0.05
0.01
0.01
0.01
0.01
0.02
0.01
0.05
0.01
0.01
0.05
0.05
0.01
0.01
0.01
0.01
Classification
Configuration
4 3
5p ( P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5s5p 6
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P0 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P0 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P0 )6s
5s5p 6
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关2兴
关3兴
关4兴
关1兴
关0兴
关1兴
关4兴
关4兴
关2兴ⴰ
关3兴
关1兴
2
S
关2兴
关3兴
关2兴
关2兴
关3兴
关3兴
关1兴
关1兴
关4兴
关4兴
关2兴
关3兴
关4兴
关3兴
关1兴
关2兴
关2兴
关4兴
关4兴
关3兴
关3兴
关4兴
关1兴
关4兴
关4兴
关1兴
关3兴
关2兴
关2兴
关0兴
关2兴
关1兴
关1兴ⴰ
关4兴
关4兴
关2兴
关2兴
关2兴
关0兴
关3兴
关2兴
关0兴
关2兴
关0兴
2
S
关4兴
关4兴
关2兴
J
3/2
5/2
7/2
1/2
1/2
3/2
9/2
7/2
5/2
5/2
3/2
1/2
3/2
7/2
5/2
3/2
5/2
5/2
1/2
1/2
9/2
7/2
5/2
7/2
9/2
5/2
3/2
3/2
5/2
7/2
9/2
7/2
7/2
9/2
3/2
9/2
9/2
3/2
7/2
3/2
5/2
1/2
5/2
3/2
3/2
9/2
9/2
5/2
5/2
5/2
1/2
7/2
5/2
1/2
5/2
1/2
1/2
7/2
7/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 1 S0 )6p
5p 4 ( 3 P0 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 S0 )6p
5p 4 ( 3 P2 )5 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 1 S0 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )5g
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
Source
of
line
87HAN
87HAN
83BER
83BER
83BER
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
83BER
82REY
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
83BER
82REY
82REY
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
83BER
83BER
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
805
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
2605.54
2606.93
2607.52
2617.14
2621.39
2623.17
2629.54
2630.40
2633.88
2640.54
2648.83
2655.39
2657.00
2659.28
2663.29
2668.02
2670.68
2672.22
2683.72
2686.14
2691.53
2698.39
2702.22
2703.44
2705.38
2711.02
2712.17
2715.76
2718.79
2721.28
2723.40
2725.66
2731.46
2733.15
2734.14
2739.77
2746.77
2747.68
2748.79
2751.76
2756.48
2757.86
2757.86
2762.25
2762.77
2763.56
2767.00
2770.41
2774.86
2781.92
2783.80
2785.42
2792.52
2794.68
2802.50
2819.02
2820.06
2825.34
2827.90
2832.00
Observed
wave
number
共cm⫺1兲
38 368.30
38 347.84
38 339.16
38 198.2
38 136.3
38 110.4
38 018.13
38 005.70
37 955.49
37 859.8
37 741.3
37 648.05
37 625.2
37 593.0
37 536.38
37 469.84
37 432.52
37 410.95
37 250.6
37 217.1
37 142.56
37 048.1
36 995.64
36 978.94
36 952.4
36 875.6
36 859.9
36 811.20
36 770.17
36 736.53
36 707.93
36 677.50
36 599.62
36 577.0
36 563.75
36 488.62
36 395.63
36 383.58
36 368.89
36 329.6
36 267.43
36 249.3
36 249.3
36 191.7
36 184.87
36 174.52
36 129.55
36 085.08
36 027.22
35 935.79
35 911.5
35 890.64
35 799.39
35 771.73
35 671.9
35 462.9
35 449.8
35 383.6
35 351.5
35 300.4
Intensity
and
comment
50
5
1
0
2h
2
5h
6h
2
1
1
2h
5h
1h
3
5
1
4
0
3h
1
0
2
10
0
1h
1
3
11- ∧
1∧
1125hs
50
111∧
1h
0
140h*
40h*
0
2
1
1
2h
15h
0
1h∧
3
11∧
1h
1H
4h
1h
2h
2h
Term
J
Uncertainty of
observed
wavelength
共Å兲
关5兴ⴰ
关4兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴
关4兴
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关4兴ⴰ
关2兴ⴰ
关2兴
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关1兴
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关1兴ⴰ
关4兴ⴰ
关4兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴
关2兴ⴰ
关2兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关3兴ⴰ
关2兴
关2兴ⴰ
关1兴
关2兴ⴰ
关2兴ⴰ
关2兴
关1兴ⴰ
9/2
7/2
3/2
7/2
5/2
5/2
7/2
7/2
5/2
5/2
7/2
5/2
5/2
5/2
3/2
7/2
9/2
5/2
5/2
3/2
5/2
3/2
7/2
7/2
1/2
5/2
3/2
5/2
5/2
3/2
1/2
3/2
3/2
7/2
9/2
3/2
3/2
5/2
5/2
5/2
3/2
7/2
5/2
5/2
5/2
5/2
3/2
3/2
5/2
1/2
3/2
3/2
5/2
3/2
3/2
3/2
3/2
5/2
5/2
1/2
0.01
0.01
0.01
0.05
0.02
0.05
0.01
0.01
0.01
0.05
0.05
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.05
0.02
0.01
0.05
0.01
0.01
0.05
0.02
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.05
0.01
0.02
0.02
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.01
0.01
0.02
0.05
0.02
0.02
0.02
0.02
Classification
Configuration
4 3
5p ( P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6s
Term
关4兴
关3兴
关0兴
关4兴
关3兴
关4兴
关3兴
关2兴
关2兴
关3兴ⴰ
关3兴ⴰ
关4兴
关2兴
关4兴
关1兴
关4兴
关4兴
关1兴
关1兴ⴰ
关3兴
关2兴
关2兴
关2兴
关2兴
关1兴ⴰ
关2兴
关2兴
关2兴
关3兴
关1兴
关2兴
关1兴ⴰ
关2兴
关2兴
关3兴
关2兴
关1兴
关1兴
关3兴
关1兴
关2兴
关3兴
关2兴
关2兴
关3兴ⴰ
关2兴
关1兴ⴰ
关1兴
关2兴
关1兴
关0兴ⴰ
关2兴
关2兴
关2兴ⴰ
关2兴
关1兴ⴰ
关2兴
关3兴
关2兴ⴰ
关2兴
J
7/2
5/2
1/2
7/2
5/2
7/2
5/2
5/2
5/2
7/2
7/2
7/2
3/2
7/2
3/2
7/2
7/2
3/2
3/2
5/2
3/2
3/2
5/2
5/2
1/2
3/2
3/2
5/2
7/2
1/2
3/2
1/2
5/2
5/2
7/2
5/2
3/2
3/2
7/2
3/2
3/2
7/2
5/2
3/2
5/2
3/2
1/2
1/2
3/2
1/2
1/2
3/2
5/2
3/2
5/2
3/2
3/2
7/2
5/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )8s
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )8s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 1 S0 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )8s
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )8s
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )8s
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )8s
5p 4 ( 1 S0 )6p
Source
of
line
87HAN
87HAN
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
83BER
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
83BER
87HAN
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
82REY
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
806
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
2836.16
2840.64
2850.95
2852.39
2853.11
2854.53
2857.32
2861.90
2864.73
2866.76
2867.36
2881.14
2883.71
2887.12
2889.07
2895.22
2902.68
2905.10
2907.18
2910.64
2917.01
2919.87
2923.03
2924.38
2927.58
2933.34
2934.80
2935.86
2942.10
2949.77
2950.69
2951.58
2952.48
2954.41
2958.50
2958.50
2963.41
2966.74
2968.95
2972.31
2972.78
2973.21
2974.86
2979.32
2986.82
2990.54
2990.54
2991.73
2991.73
3003.98
3005.97
3006.97
3009.03
3013.82
3015.52
3017.43
3019.78
3022.10
3027.27
3027.63
Observed
wave
number
共cm⫺1兲
35 248.57
35 193.0
35 065.72
35 048.0
35 039.18
35 021.75
34 987.6
34 931.56
34 897.06
34 872.35
34 865.05
34 698.30
34 667.38
34 626.44
34 603.07
34 529.6
34 440.83
34 412.1
34 387.52
34 346.65
34 271.64
34 238.08
34 201.07
34 185.28
34 147.91
34 080.9
34 063.9
34 051.6
33 979.39
33 891.0
33 880.5
33 870.26
33 859.94
33 837.8
33 791.0
33 791.0
33 735.06
33 697.19
33 672.11
33 634.05
33 628.73
33 623.9
33 605.2
33 554.91
33 470.66
33 429.03
33 429.03
33 415.73
33 415.73
33 279.47
33 257.44
33 246.38
33 223.6
33 170.8
33 152.1
33 131.1
33 105.35
33 079.9
33 023.45
33 019.5
Intensity
and
comment
1h
0
3
3h
1
60
1h
20h
150
5h
2h
1- ∧
12
10
10
150h
3
2h
80h
1h
140
1- ∧
2
2
1h
2h
60h
20h
4h
1h
2
2
1
0*
0*
50
2∧
1∧
8
1
0
20Hl
300
8
12*
12*
3*
3*
40
12
0b
2h∧
20h
100h
2h
2H
3
2h
Term
J
Uncertainty of
observed
wavelength
共Å兲
关2兴ⴰ
关5兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关5兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关1兴ⴰ
关4兴ⴰ
关1兴ⴰ
关1兴
关1兴ⴰ
关2兴
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴
关2兴ⴰ
关1兴ⴰ
关2兴
关1兴
关2兴
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴
关3兴
关3兴
关2兴ⴰ
关1兴ⴰ
关4兴ⴰ
关1兴ⴰ
关3兴
关2兴ⴰ
关2兴
关4兴ⴰ
关3兴ⴰ
关1兴ⴰ
关2兴
关1兴ⴰ
关3兴
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴
关3兴ⴰ
关3兴ⴰ
关4兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关2兴
3/2
11/2
3/2
5/2
3/2
3/2
9/2
7/2
5/2
1/2
7/2
1/2
7/2
7/2
3/2
7/2
3/2
3/2
3/2
5/2
3/2
1/2
5/2
3/2
3/2
3/2
1/2
3/2
3/2
3/2
3/2
5/2
3/2
3/2
7/2
5/2
5/2
1/2
9/2
3/2
7/2
3/2
5/2
7/2
5/2
3/2
3/2
3/2
5/2
1/2
7/2
3/2
5/2
5/2
5/2
7/2
1/2
1/2
3/2
3/2
0.01
0.05
0.01
0.02
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.02
0.02
0.01
0.02
0.02
0.01
0.01
0.05
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.05
0.02
0.02
0.02
0.01
0.05
0.01
0.02
Classification
Configuration
4 3
5p ( P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5s5p 6
4 1
5p ( D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6p
5s5p 6
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关1兴
关4兴
关1兴
关3兴
关0兴
关1兴
关3兴
关3兴
关1兴
关1兴
关2兴
关1兴
关2兴
关3兴
关2兴
关3兴
关3兴
关1兴ⴰ
关0兴
关2兴ⴰ
关2兴
关0兴
关3兴
关1兴
关2兴ⴰ
关1兴
关0兴
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关1兴
关3兴
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴
2
S
关4兴
关2兴
关2兴ⴰ
关3兴
关3兴ⴰ
关3兴
关2兴
关1兴
关0兴ⴰ
2
S
关3兴ⴰ
关1兴
关3兴
关0兴
关3兴ⴰ
关3兴
关1兴
关2兴
关1兴
关1兴ⴰ
关3兴
关1兴ⴰ
J
1/2
9/2
1/2
5/2
1/2
3/2
7/2
5/2
3/2
3/2
5/2
3/2
5/2
7/2
3/2
5/2
5/2
1/2
1/2
5/2
5/2
1/2
5/2
3/2
3/2
1/2
1/2
5/2
5/2
1/2
3/2
3/2
5/2
3/2
5/2
5/2
5/2
1/2
7/2
3/2
5/2
5/2
7/2
5/2
5/2
1/2
1/2
1/2
5/2
1/2
5/2
1/2
7/2
5/2
3/2
5/2
1/2
3/2
5/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )4 f
5p 4 ( 3 P2 )5 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )8s
5p 4 ( 3 P1 )8s
5p 4 ( 3 P2 )8s
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )8s
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )8s
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )8s
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )7s
Source
of
line
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
83BER
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
807
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
3033.71
3036.80
3037.35
3044.75
3045.25
3046.27
3047.56
3047.76
3047.83
3048.17
3048.50
3050.98
3055.50
3056.49
3061.54
3063.72
3066.60
3067.30
3067.30
3073.17
3082.62
3082.87
3085.12
3085.12
3087.34
3090.47
3092.41
3094.53
3096.90
3098.21
3098.50
3101.51
3104.40
3106.54
3107.82
3112.74
3116.78
3121.87
3124.02
3128.40
3128.40
3130.40
3142.54
3143.62
3145.02
3148.99
3150.97
3159.75
3162.93
3164.23
3165.27
3168.67
3174.59
3175.64
3181.39
3184.35
3193.75
3194.85
3194.85
3196.22
Observed
wave
number
共cm⫺1兲
32 953.35
32 919.8
32 913.86
32 833.87
32 828.48
32 817.48
32 803.6
32 801.4
32 800.69
32 797.03
32 793.5
32 766.82
32 718.4
32 707.76
32 653.81
32 630.57
32 599.9
32 592.49
32 592.49
32 530.24
32 430.52
32 427.89
32 404.24
32 404.24
32 380.94
32 348.15
32 327.85
32 305.7
32 280.99
32 267.34
32 264.32
32 233.0
32 203.0
32 180.82
32 167.6
32 116.72
32 075.09
32 022.80
32 000.8
31 956.0
31 956.0
31 935.5
31 812.2
31 801.25
31 787.09
31 747.02
31 727.1
31 638.9
31 607.11
31 594.12
31 583.74
31 549.85
31 491.02
31 480.61
31 423.71
31 394.50
31 302.11
31 291.3
31 291.3
31 277.92
Intensity
and
comment
10
30h
6h
10
30
25
0
8H
0
5
3h∧
3
1
20
12
0
1h
30*
30*
2h
20
2
1-*
1-*
11
15
30h
8
2
1
50h
70h
0b
20Hl
20
2h
250
12h
1H*
1H*
3H
0
6
4h
5
3
4h
25
6
6
3h
1
80
3h
10h
1h
0*
0*
25
Term
J
Uncertainty of
observed
wavelength
共Å兲
关1兴ⴰ
关3兴ⴰ
关2兴
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴
关3兴ⴰ
关1兴
关2兴
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴
关2兴
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关2兴
关1兴
关2兴
关2兴ⴰ
关2兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴
关2兴ⴰ
关2兴ⴰ
关3兴
关4兴ⴰ
关2兴ⴰ
关3兴
关1兴
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关4兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关5兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关4兴
关4兴
关3兴ⴰ
3/2
5/2
5/2
5/2
5/2
7/2
1/2
3/2
7/2
1/2
5/2
5/2
3/2
5/2
5/2
1/2
5/2
5/2
3/2
7/2
3/2
3/2
3/2
5/2
3/2
3/2
3/2
5/2
1/2
3/2
5/2
3/2
5/2
3/2
5/2
3/2
7/2
7/2
3/2
5/2
3/2
5/2
3/2
5/2
5/2
5/2
7/2
5/2
7/2
3/2
1/2
1/2
3/2
9/2
3/2
3/2
3/2
9/2
7/2
5/2
0.01
0.02
0.01
0.01
0.01
0.01
0.05
0.02
0.01
0.01
0.02
0.01
0.05
0.01
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.01
0.01
0.02
0.02
0.01
0.05
0.01
0.01
0.01
0.02
0.02
0.02
0.02
0.05
0.01
0.01
0.01
0.05
0.02
0.01
0.01
0.01
0.02
0.01
0.01
0.02
0.01
0.01
0.05
0.05
0.01
Classification
Configuration
4 3
5p ( P0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5s5p 6
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5d
Term
关2兴
关2兴
关1兴ⴰ
关2兴
关2兴
关3兴
关2兴
关1兴ⴰ
关2兴
关1兴ⴰ
关3兴ⴰ
关3兴
关3兴
关3兴
关3兴
关2兴
关3兴ⴰ
关2兴ⴰ
关1兴
关3兴
关1兴
关3兴ⴰ
关0兴ⴰ
关1兴ⴰ
2
S
关2兴ⴰ
关2兴
关1兴
关1兴
关1兴ⴰ
关2兴
关1兴
关2兴
关2兴ⴰ
关1兴
关2兴
关3兴ⴰ
关2兴
关2兴
关1兴ⴰ
关1兴ⴰ
关2兴
关2兴
关2兴
关3兴
关2兴
关2兴
关2兴
关3兴
关1兴
关0兴
关1兴ⴰ
关2兴
关3兴
关2兴
关1兴
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关1兴
J
3/2
5/2
3/2
3/2
3/2
5/2
3/2
3/2
5/2
1/2
5/2
5/2
5/2
5/2
5/2
3/2
7/2
3/2
1/2
5/2
3/2
5/2
1/2
3/2
1/2
3/2
5/2
3/2
3/2
1/2
3/2
3/2
5/2
5/2
3/2
3/2
5/2
5/2
5/2
3/2
3/2
5/2
3/2
3/2
7/2
3/2
5/2
5/2
7/2
3/2
1/2
1/2
5/2
7/2
5/2
3/2
3/2
7/2
7/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )8s
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )8s
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P2 )4 f
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
81GAL
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
83BER
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
808
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
3201.68
3202.04
3206.72
3211.59
3212.29
3225.08
3233.23
3247.74
3248.83
3249.35
3250.04
3250.56
3259.36
3260.73
3262.02
3264.03
3267.34
3268.08
3272.91
3274.80
3281.26
3281.26
3296.20
3298.72
3310.85
3311.80
3313.48
3316.39
3320.57
3327.46
3338.80
3339.49
3347.27
3353.44
3366.72
3373.92
3375.16
3381.34
3384.13
3386.30
3388.05
3395.50
3399.37
3412.58
3413.20
3417.04
3420.73
3432.49
3436.48
3446.34
3460.08
3461.26
3462.81
3464.17
3467.68
3474.23
3482.21
3485.23
3500.36
3503.15
Observed
wave
number
共cm⫺1兲
31 224.58
31 221.07
31 175.50
31 128.2
31 121.45
30 998.03
30 919.90
30 781.8
30 771.43
30 766.51
30 759.98
30 755.06
30 672.03
30 659.14
30 647.01
30 628.1
30 597.12
30 590.19
30 545.05
30 527.4
30 467.32
30 467.32
30 329.23
30 306.06
30 195.03
30 186.37
30 171.07
30 144.59
30 106.65
30 044.31
29 942.27
29 936.08
29 866.5
29 811.56
29 693.97
29 630.60
29 619.72
29 565.58
29 541.21
29 522.28
29 507.03
29 442.29
29 408.78
29 294.9
29 289.6
29 256.70
29 225.14
29 125.02
29 091.20
29 007.98
28 892.79
28 882.94
28 870.01
28 858.68
28 829.47
28 775.12
28 709.18
28 684.30
28 560.32
28 537.57
Intensity
and
comment
3h
10
1- ∧
1H
5h
15
1
6Hl
1- ∧
1- ∧
2h
25
12
2
4h
0
3h
1h∧
60
2H∧
12h*
12h*
1h
6
1h
2
2h
6h
1h
15
4h
3
3H
1h∧
300h
2h
3h
1h∧
40h
2h
2
3
1
1H6H
140
1
125h
8
100h
11h
120h
2h
1h
30
15
Term
J
Uncertainty of
observed
wavelength
共Å兲
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关1兴
关2兴ⴰ
关3兴ⴰ
关2兴
关2兴
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴
关3兴ⴰ
关1兴
关4兴ⴰ
关2兴
关2兴
关4兴ⴰ
关1兴
关0兴ⴰ
关4兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴
关2兴ⴰ
关1兴
关1兴ⴰ
关2兴ⴰ
关0兴
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴ⴰ
5/2
3/2
5/2
1/2
5/2
7/2
5/2
3/2
3/2
3/2
5/2
3/2
5/2
7/2
5/2
3/2
7/2
3/2
9/2
5/2
3/2
7/2
3/2
1/2
7/2
3/2
7/2
5/2
3/2
5/2
1/2
3/2
5/2
1/2
5/2
3/2
5/2
5/2
1/2
5/2
1/2
7/2
5/2
3/2
3/2
1/2
3/2
3/2
1/2
3/2
3/2
5/2
3/2
1/2
7/2
3/2
5/2
1/2
3/2
1/2
0.02
0.01
0.01
0.05
0.02
0.01
0.01
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.05
0.01
0.02
0.01
0.05
0.02
0.02
0.02
0.01
0.02
0.01
0.02
0.02
0.02
0.01
0.01
0.01
0.05
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.01
0.01
0.01
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.02
0.01
0.01
0.02
0.02
0.01
0.01
Classification
Configuration
4 3
5p ( P1 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P0 )6s
5p 4 ( 3 P1 )5d
5s5p 6
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )6p
5s5p 6
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )6s
5s5p 6
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关1兴
关2兴
关2兴
关2兴ⴰ
关2兴
关2兴
关2兴ⴰ
关1兴ⴰ
关2兴
关0兴
关3兴
2
S
关4兴
关4兴
关2兴
关3兴ⴰ
关3兴
关2兴ⴰ
关3兴
关1兴ⴰ
关1兴ⴰ
关2兴
关2兴ⴰ
2
S
关3兴
关2兴
关2兴
关1兴ⴰ
关3兴
关2兴
关1兴
关2兴
关3兴
关1兴ⴰ
关2兴
关2兴
关2兴
关2兴
2
S
关1兴ⴰ
关2兴
关2兴
关1兴
关1兴ⴰ
关3兴
关1兴ⴰ
关2兴
关1兴
关2兴ⴰ
关2兴
关2兴
关2兴
关3兴ⴰ
关2兴
关3兴
关2兴
关2兴
关2兴
关2兴
关2兴
J
3/2
5/2
5/2
3/2
5/2
5/2
5/2
3/2
5/2
1/2
7/2
1/2
7/2
9/2
5/2
5/2
5/2
3/2
7/2
3/2
1/2
5/2
3/2
1/2
5/2
5/2
5/2
3/2
5/2
5/2
3/2
5/2
5/2
1/2
3/2
5/2
5/2
5/2
1/2
3/2
3/2
5/2
3/2
3/2
5/2
1/2
3/2
3/2
3/2
3/2
5/2
3/2
5/2
3/2
7/2
3/2
3/2
3/2
5/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )8s
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )8s
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6d
5p 4 ( 1 S0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
809
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
3504.25
3506.56
3508.88
3509.78
3513.57
3516.71
3521.53
3530.21
3534.61
3538.08
3539.41
3546.29
3548.69
3557.88
3561.75
3562.50
3564.30
3578.58
3588.62
3589.02
3589.88
3604.83
3607.41
3611.52
3612.37
3617.94
3621.98
3634.48
3644.43
3644.91
3645.29
3654.44
3657.74
3658.44
3661.70
3663.93
3665.47
3672.57
3674.04
3684.07
3690.74
3691.84
3698.49
3711.64
3715.69
3717.20
3720.80
3731.00
3731.18
3741.11
3741.96
3745.46
3756.87
3762.05
3763.37
3765.66
3773.83
3775.49
3778.78
3780.70
Observed
wave
number
共cm⫺1兲
28 528.62
28 509.82
28 490.97
28 483.67
28 452.94
28 427.5
28 388.6
28 318.83
28 283.58
28 255.84
28 245.2
28 190.43
28 171.36
28 098.6
28 068.07
28 062.16
28 047.99
27 936.07
27 857.91
27 854.8
27 848.14
27 732.65
27 712.81
27 681.28
27 674.76
27 632.2
27 601.34
27 506.41
27 431.32
27 427.70
27 424.8
27 356.18
27 331.50
27 326.27
27 301.9
27 285.33
27 273.9
27 221.14
27 210.25
27 136.2
27 087.13
27 079.06
27 030.37
26 934.6
26 905.2
26 894.32
26 868.30
26 794.8
26 793.55
26 722.4
26 716.37
26 691.4
26 610.34
26 573.70
26 564.38
26 548.2
26 490.8
26 479.11
26 456.05
26 442.6
Intensity
and
comment
1
15
20
10bXe III
1
2
2
3H
1h∧
2
0
1h
2h
2b
1- ∧
1- ∧
20
2
6h
2b
1H
3h
8
1h
20
1
3h
15
5
3
3b
5
6h
20H
5h
1
20
11
1
1h
1h
20H
2H
20
40
0b
20
0
2Hw
3a
10
3h
15
0
0
1
11H
Term
J
Uncertainty of
observed
wavelength
共Å兲
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关4兴ⴰ
关3兴
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴
关4兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关1兴ⴰ
关2兴
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴
关2兴
关3兴ⴰ
关4兴ⴰ
关3兴
关2兴ⴰ
关2兴
关2兴ⴰ
关0兴
关3兴
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关0兴
关1兴
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴
关1兴ⴰ
关3兴ⴰ
关1兴
关2兴
7/2
3/2
1/2
7/2
3/2
7/2
5/2
5/2
3/2
3/2
5/2
3/2
3/2
5/2
5/2
3/2
5/2
3/2
3/2
5/2
3/2
9/2
1/2
3/2
5/2
3/2
5/2
5/2
3/2
1/2
3/2
3/2
5/2
7/2
5/2
5/2
5/2
3/2
1/2
5/2
1/2
5/2
7/2
1/2
3/2
5/2
3/2
3/2
1/2
5/2
7/2
3/2
3/2
3/2
3/2
3/2
3/2
5/2
3/2
5/2
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.02
0.02
0.01
0.05
0.01
0.02
0.05
0.01
0.01
0.01
0.01
0.01
0.05
0.02
0.02
0.01
0.02
0.01
0.05
0.02
0.01
0.01
0.01
0.05
0.01
0.01
0.01
0.05
0.01
0.05
0.01
0.01
0.05
0.01
0.01
0.02
0.05
0.05
0.01
0.01
0.05
0.01
0.05
0.02
0.05
0.01
0.02
0.01
0.05
0.05
0.01
0.01
0.05
Classification
Configuration
4 3
5p ( P2 )5d
5p 4 ( 3 P0 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
Term
关4兴
关0兴
关1兴
关3兴
关1兴
关3兴
关2兴ⴰ
关2兴
关2兴
关2兴
关2兴ⴰ
关2兴
关2兴
关3兴
关1兴ⴰ
关2兴
关2兴
关2兴
关2兴
关2兴
关2兴ⴰ
关3兴
关1兴
关2兴ⴰ
关3兴
关2兴
关1兴ⴰ
关2兴
关1兴
关1兴
关1兴ⴰ
关1兴ⴰ
关4兴
关2兴
关2兴ⴰ
关2兴
关1兴ⴰ
关2兴
关1兴ⴰ
关2兴ⴰ
关2兴
关2兴
关2兴
关2兴ⴰ
关0兴ⴰ
关1兴
关1兴
关2兴
关0兴
关2兴
关3兴
关2兴ⴰ
关1兴
关2兴
关2兴
关2兴ⴰ
关2兴
关2兴
关1兴ⴰ
关2兴ⴰ
J
7/2
1/2
1/2
5/2
1/2
7/2
5/2
3/2
5/2
3/2
3/2
3/2
3/2
7/2
3/2
3/2
3/2
3/2
5/2
3/2
3/2
7/2
1/2
5/2
7/2
5/2
3/2
5/2
1/2
3/2
3/2
3/2
7/2
5/2
3/2
3/2
3/2
3/2
1/2
5/2
3/2
3/2
5/2
3/2
1/2
3/2
3/2
5/2
1/2
3/2
7/2
5/2
3/2
3/2
3/2
3/2
5/2
5/2
3/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 1
5p ( D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )8s
5p 4 ( 3 P0 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )7s
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P0 )4 f
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )7s
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
83BER
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
83BER
93GAL
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
83BER
83BER
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
810
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
3783.23
3787.32
3800.99
3805.68
3807.29
3810.67
3811.05
3815.16
3823.35
3826.27
3829.77
3848.58
3849.87
3858.53
3869.63
3883.67
3885.00
3885.45
3905.34
3905.85
3907.91
3916.60
3920.78
3926.80
3928.42
3933.22
3937.66
3938.92
3942.21
3943.57
3951.61
3954.73
3962.15
3972.58
3975.59
3978.98
3980.41
3981.21
3990.33
3996.05
4000.55
4002.35
4003.09
4008.46
4016.56
4017.86
4025.19
4026.20
4026.82
4027.97
4029.82
4035.87
4037.29
4037.59
4039.69
4044.64
4044.90
4051.27
4057.46
4062.12
Observed
wave
number
共cm⫺1兲
26 424.93
26 396.40
26 301.47
26 269.06
26 257.95
26 234.7
26 232.04
26 203.78
26 147.65
26 127.70
26 103.82
25 976.24
25 967.54
25 909.26
25 834.94
25 741.5
25 732.73
25 729.8
25 598.71
25 595.37
25 581.88
25 525.12
25 497.91
25 458.82
25 448.3
25 417.27
25 388.61
25 380.49
25 359.30
25 350.56
25 299.0
25 279.02
25 231.7
25 165.44
25 146.39
25 124.96
25 115.94
25 110.89
25 053.5
25 017.64
24 989.50
24 978.26
24 973.6
24 940.2
24 889.89
24 881.84
24 836.53
24 830.3
24 826.5
24 819.39
24 807.99
24 770.81
24 762.09
24 760.25
24 747.38
24 717.1
24 715.5
24 676.65
24 639.0
24 610.74
Intensity
and
comment
10h
3
15h
1H
10h
0
40
1hw
2
2h
10h
6
50Hl
20
20
1H
20
4Hl
1
10
100h
1h
1h
1
1
2
15h
3
20
5Hl
20hl
0
50Hl
4
2h
2h
1h
60Hl
3
5h
80Hl
1
1H
2h
2h
30
5Hl
0
3h
11
100
200
16H
8H
10h
200H
6
Term
J
Uncertainty of
observed
wavelength
共Å兲
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴
关1兴
关2兴
关2兴ⴰ
关1兴
关1兴ⴰ
关1兴ⴰ
关2兴
关2兴ⴰ
关3兴ⴰ
关1兴
关1兴ⴰ
关3兴
关2兴
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴
关4兴ⴰ
关2兴
关2兴
关0兴ⴰ
关4兴ⴰ
关4兴ⴰ
关3兴
关0兴
关2兴ⴰ
关5兴ⴰ
关4兴ⴰ
关1兴
关2兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关3兴ⴰ
关1兴
关1兴ⴰ
关1兴
关2兴
关2兴ⴰ
关1兴
关1兴
关2兴
关4兴
关2兴
5/2
3/2
7/2
3/2
5/2
3/2
3/2
5/2
1/2
3/2
3/2
3/2
3/2
3/2
1/2
3/2
5/2
5/2
3/2
3/2
5/2
3/2
5/2
5/2
3/2
3/2
5/2
7/2
1/2
1/2
5/2
7/2
3/2
5/2
1/2
7/2
7/2
7/2
1/2
3/2
9/2
7/2
3/2
3/2
3/2
5/2
1/2
3/2
5/2
7/2
1/2
3/2
1/2
3/2
3/2
3/2
1/2
5/2
7/2
5/2
0.02
0.01
0.01
0.02
0.01
0.05
0.01
0.01
0.01
0.02
0.01
0.01
0.02
0.01
0.01
0.05
0.01
0.05
0.01
0.01
0.02
0.02
0.02
0.01
0.05
0.01
0.01
0.01
0.01
0.01
0.05
0.02
0.05
0.02
0.01
0.02
0.02
0.02
0.05
0.01
0.02
0.02
0.05
0.05
0.02
0.02
0.01
0.05
0.05
0.02
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.02
0.05
0.01
Classification
Configuration
4 3
5p ( P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5s5p 6
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关2兴
关1兴
关2兴
关2兴
关2兴
关3兴
关2兴
关2兴
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关0兴
关1兴ⴰ
2
S
关1兴
关3兴ⴰ
关3兴
关1兴
关1兴ⴰ
关2兴
关3兴ⴰ
关1兴ⴰ
关2兴
关3兴
关3兴
关1兴
关3兴ⴰ
关2兴
关2兴
关2兴
关1兴ⴰ
关3兴
关1兴ⴰ
关3兴ⴰ
关2兴
关4兴
关4兴
关3兴ⴰ
关1兴ⴰ
关1兴
关4兴
关2兴
关2兴ⴰ
关1兴ⴰ
关2兴
关1兴
关1兴
关2兴ⴰ
关2兴
关4兴
关1兴ⴰ
关1兴
关2兴ⴰ
关0兴ⴰ
关3兴
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
J
5/2
1/2
5/2
3/2
3/2
5/2
5/2
3/2
3/2
5/2
5/2
1/2
1/2
1/2
1/2
5/2
5/2
3/2
3/2
3/2
5/2
1/2
5/2
5/2
5/2
1/2
7/2
5/2
3/2
3/2
3/2
5/2
1/2
5/2
3/2
9/2
7/2
5/2
1/2
1/2
7/2
5/2
5/2
3/2
5/2
3/2
3/2
3/2
3/2
7/2
1/2
1/2
3/2
1/2
5/2
5/2
3/2
3/2
5/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )6d
5p 4 ( 1 S0 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 S0 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 S0 )5d
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
811
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
4066.53
4072.10
4073.50
4091.88
4098.89
4100.34
4100.97
4103.10
4104.95
4110.41
4112.14
4112.42
4113.26
4113.52
4121.86
4131.01
4131.24
4138.81
4148.19
4148.19
4152.74
4154.65
4156.17
4158.04
4162.16
4170.99
4180.10
4180.10
4180.29
4193.15
4197.81
4201.25
4203.22
4208.48
4209.47
4213.72
4214.69
4215.30
4215.60
4223.00
4237.20
4237.96
4238.25
4243.88
4244.41
4245.38
4250.16
4251.57
4263.57
4269.84
4295.17
4296.40
4296.75
4306.21
4310.51
4321.82
4330.52
4335.81
4337.07
4342.56
Observed
wave
number
共cm⫺1兲
24 584.0
24 550.42
24 541.98
24 431.75
24 389.97
24 381.34
24 377.60
24 364.94
24 353.96
24 321.61
24 311.38
24 309.7
24 304.76
24 303.22
24 254.05
24 200.33
24 199.0
24 154.72
24 100.10
24 100.10
24 073.70
24 062.63
24 053.83
24 043.0
24 019.21
23 968.4
23 916.13
23 916.13
23 915.05
23 841.70
23 815.2
23 795.7
23 784.58
23 754.86
23 749.27
23 725.32
23 719.86
23 716.4
23 714.74
23 673.18
23 593.8
23 589.6
23 588.00
23 556.71
23 553.77
23 548.39
23 521.9
23 514.1
23 447.92
23 413.49
23 275.4
23 268.75
23 266.86
23 215.75
23 192.59
23 131.90
23 085.4
23 057.26
23 050.6
23 021.4
Intensity
and
comment
Configuration
4 3
6h
15
3h
100h
20
1h
8hl
40
30
30Hl
0
2
2
5h
20
0
3h
2h*
2h*
1
2
2h
200H
60
8Hl
1000*
1000*
1
500h
10H
15H
5
400h
200h
400h
6
0
200
400h
3b
500h
10
30
500h
100H
10h∧
40
1a
500h
2
1h
500h
40
1000
10
30Hl
6Hl
Term
J
Uncertainty of
observed
wavelength
共Å兲
关3兴ⴰ
关2兴
关2兴ⴰ
关3兴ⴰ
关2兴
关1兴ⴰ
关2兴ⴰ
关2兴
关1兴ⴰ
关0兴ⴰ
关2兴
关2兴
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴
关1兴ⴰ
关0兴
关3兴ⴰ
关2兴ⴰ
关4兴ⴰ
关4兴ⴰ
关1兴
关2兴ⴰ
关2兴
关1兴
关2兴
关3兴
关4兴
关3兴
关1兴
关2兴ⴰ
关2兴
关2兴
关2兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴
关1兴
关3兴ⴰ
关2兴
关1兴ⴰ
关3兴ⴰ
关3兴
关3兴
关1兴
关3兴ⴰ
关1兴ⴰ
关2兴
关0兴
关3兴ⴰ
关3兴ⴰ
关2兴
关1兴ⴰ
关4兴
关2兴
关2兴
关2兴
7/2
3/2
3/2
5/2
3/2
1/2
5/2
5/2
3/2
1/2
3/2
3/2
3/2
5/2
7/2
5/2
5/2
1/2
1/2
7/2
3/2
9/2
9/2
1/2
3/2
5/2
3/2
3/2
7/2
7/2
5/2
3/2
5/2
5/2
3/2
3/2
3/2
5/2
3/2
5/2
1/2
7/2
5/2
1/2
5/2
7/2
5/2
3/2
5/2
1/2
3/2
1/2
7/2
5/2
5/2
3/2
7/2
5/2
5/2
5/2
0.05
0.02
0.01
0.02
0.02
0.01
0.02
0.02
0.01
0.01
0.02
0.05
0.01
0.01
0.01
0.01
0.05
0.02
0.02
0.02
0.01
0.01
0.02
0.05
0.01
0.05
0.02
0.02
0.01
0.02
0.05
0.05
0.01
0.02
0.02
0.02
0.01
0.05
0.01
0.02
0.05
0.05
0.02
0.01
0.01
0.02
0.05
0.05
0.02
0.01
0.05
0.02
0.01
0.02
0.02
0.01
0.05
0.01
0.05
0.05
Classification
5p ( P2 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )7s
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
Term
关2兴
关3兴ⴰ
关2兴
关3兴
关1兴ⴰ
关2兴
关3兴
关1兴ⴰ
关1兴
关1兴
关1兴ⴰ
关2兴ⴰ
关1兴
关1兴
关3兴
关2兴
关2兴ⴰ
关1兴
关1兴ⴰ
关4兴
关2兴
关4兴
关4兴
关0兴ⴰ
关1兴
关3兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关0兴
关2兴
关2兴
关2兴ⴰ
关1兴ⴰ
关3兴
关2兴ⴰ
关1兴
关1兴
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴
关0兴
关1兴ⴰ
关2兴ⴰ
关2兴
关2兴
关2兴ⴰ
关0兴
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
J
5/2
5/2
3/2
5/2
1/2
3/2
5/2
3/2
3/2
1/2
3/2
3/2
3/2
3/2
5/2
5/2
5/2
3/2
3/2
9/2
5/2
9/2
7/2
1/2
3/2
7/2
3/2
3/2
7/2
5/2
5/2
3/2
7/2
3/2
5/2
1/2
1/2
5/2
5/2
3/2
3/2
5/2
5/2
1/2
3/2
5/2
7/2
1/2
3/2
1/2
3/2
3/2
5/2
5/2
5/2
1/2
5/2
5/2
3/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 1
5p ( D2 )4 f
5p 4 ( 1 S0 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 S0 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )8s
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )8s
5p 4 ( 1 S0 )6p
5p 4 ( 3 P0 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P0 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )8s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 1 S0 )5d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )8s
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
82REY
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
812
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
4357.28
4367.05
4369.20
4372.46
4373.78
4379.44
4384.93
4392.09
4393.20
4395.77
4404.54
4406.88
4414.84
4414.84
4416.07
4427.52
4440.95
4448.13
4451.32
4462.19
4464.60
4465.77
4470.90
4480.86
4485.95
4488.60
4488.97
4507.11
4508.97
4521.86
4524.21
4532.49
4535.09
4536.92
4536.92
4540.89
4545.23
4550.79
4550.91
4555.94
4563.00
4567.91
4571.85
4577.06
4580.70
4585.48
4591.80
4592.05
4593.70
4596.30
4603.03
4615.06
4615.50
4615.50
4617.50
4619.57
4619.57
4629.99
4629.99
4633.30
Observed
wave
number
共cm⫺1兲
22 943.6
22 892.3
22 881.1
22 864.00
22 857.1
22 827.56
22 798.98
22 761.8
22 756.1
22 742.8
22 697.5
22 685.4
22 644.52
22 644.52
22 638.2
22 579.67
22 511.4
22 475.0
22 458.9
22 404.2
22 392.14
22 386.3
22 360.59
22 310.88
22 285.57
22 272.4
22 270.6
22 180.95
22 171.8
22 108.59
22 097.11
22 056.74
22 044.10
22 035.2
22 035.2
22 015.94
21 994.9
21 968.05
21 967.5
21 943.2
21 909.3
21 885.7
21 866.9
21 842.0
21 824.6
21 801.86
21 771.9
21 770.67
21 762.85
21 750.54
21 718.74
21 662.12
21 660.06
21 660.06
21 650.68
21 640.97
21 640.97
21 592.3
21 592.3
21 576.85
Intensity
and
comment
0
30H
200H
2h
100H
10Hl
60
0
500H
500H
1
200H
300*
300*
150H
2h
50H
500H
1H
1000
1∧
30
500H
20
4H
0
5h
0a
100h
200
200
1h
80H*
80H*
400h
400H
10H
2b
200H
2H
30Hd
200H
80Hl
500H
1
300H
6
1
600h
100h
200*
200*
90hl
1*
1*
5*
5*
50
Term
J
Uncertainty of
observed
wavelength
共Å兲
关1兴ⴰ
关4兴
关1兴
关2兴
关1兴
关2兴
关1兴ⴰ
关1兴ⴰ
关2兴
关4兴
关2兴
关2兴
关4兴
关2兴ⴰ
关3兴
关4兴
关2兴
关3兴
关1兴
关4兴
关3兴ⴰ
关4兴
关2兴ⴰ
关3兴
关1兴ⴰ
关3兴ⴰ
关3兴
关1兴ⴰ
关4兴
关2兴
关2兴ⴰ
关3兴ⴰ
关3兴
关2兴
关2兴
关2兴
关3兴
关1兴
关1兴
关0兴
关4兴ⴰ
关4兴ⴰ
关2兴
关2兴
关2兴
关3兴
关1兴ⴰ
关3兴
关1兴ⴰ
关1兴
关1兴ⴰ
关3兴
关1兴
关1兴ⴰ
关2兴
关1兴
关3兴ⴰ
关3兴
关3兴
关2兴ⴰ
3/2
7/2
1/2
5/2
3/2
3/2
1/2
3/2
5/2
9/2
5/2
3/2
7/2
5/2
5/2
7/2
3/2
7/2
1/2
9/2
5/2
9/2
3/2
5/2
3/2
5/2
7/2
3/2
7/2
5/2
3/2
7/2
5/2
3/2
5/2
5/2
7/2
1/2
3/2
1/2
9/2
7/2
3/2
5/2
5/2
7/2
1/2
7/2
3/2
1/2
3/2
5/2
3/2
3/2
3/2
1/2
7/2
7/2
5/2
5/2
0.05
0.05
0.05
0.02
0.05
0.02
0.01
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.02
0.05
0.05
0.05
0.05
0.01
0.05
0.01
0.02
0.01
0.05
0.05
0.02
0.05
0.02
0.01
0.01
0.02
0.05
0.05
0.02
0.05
0.02
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.02
0.05
0.02
0.01
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.01
Classification
Configuration
4 3
5p ( P2 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5s5p 6
5p 4 ( 3 P1 )6s
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6s
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6s
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关2兴
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关2兴ⴰ
2
S
关1兴
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴
关4兴ⴰ
关2兴
关1兴ⴰ
关2兴
关2兴
关4兴ⴰ
关1兴
关3兴ⴰ
关2兴ⴰ
关0兴
关2兴
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴
关2兴
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴
关2兴ⴰ
关1兴
关0兴ⴰ
关2兴
关2兴ⴰ
关2兴ⴰ
关2兴
关1兴ⴰ
关1兴ⴰ
关3兴
关3兴ⴰ
关3兴ⴰ
关4兴
J
5/2
7/2
1/2
7/2
3/2
5/2
1/2
1/2
3/2
7/2
5/2
3/2
7/2
5/2
3/2
5/2
3/2
5/2
3/2
7/2
5/2
9/2
5/2
3/2
3/2
3/2
9/2
1/2
5/2
3/2
1/2
5/2
3/2
1/2
5/2
3/2
5/2
3/2
1/2
3/2
7/2
5/2
1/2
7/2
5/2
7/2
3/2
5/2
3/2
1/2
3/2
3/2
3/2
5/2
3/2
1/2
7/2
5/2
5/2
7/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 1
5p ( D2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 S0 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )5g
5p 4 ( 3 P0 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5g
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )5g
5p 4 ( 1 S0 )6p
5p 4 ( 3 P1 )5g
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5g
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )6p
Source
of
line
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
83BER
87HAN
SPECTRAL LINES OF XENON
813
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
4651.94
4653.00
4655.33
4666.28
4668.49
4672.20
4673.94
4674.56
4675.42
4676.46
4676.75
4678.31
4679.45
4681.65
4685.86
4688.20
4692.05
4693.34
4698.01
4699.62
4704.67
4708.92
4712.63
4713.76
4713.76
4715.18
4721.00
4731.19
4732.51
4769.05
4773.19
4775.18
4775.76
4779.18
4786.65
4787.77
4791.84
4792.56
4795.40
4796.48
4798.35
4799.45
4802.10
4817.14
4818.02
4823.35
4830.25
4831.08
4832.20
4840.87
4840.87
4841.85
4844.33
4847.82
4850.2
4850.2
4853.77
4862.45
4868.87
4876.50
Observed
wave
number
共cm⫺1兲
21 490.39
21 485.50
21 474.7
21 424.35
21 414.21
21 397.20
21 389.2
21 386.40
21 382.5
21 377.7
21 376.39
21 369.26
21 364.05
21 354.0
21 334.8
21 324.2
21 306.7
21 300.83
21 279.65
21 272.36
21 249.5
21 230.35
21 213.64
21 208.6
21 208.6
21 202.17
21 176.0
21 130.42
21 124.53
20 962.68
20 944.49
20 935.8
20 933.2
20 918.24
20 885.60
20 880.71
20 862.98
20 859.84
20 847.49
20 842.8
20 834.7
20 829.90
20 818.40
20 753.41
20 749.62
20 726.69
20 697.08
20 693.5
20 688.73
20 651.67
20 651.67
20 647.5
20 636.92
20 622.1
20 611.95
20 611.95
20 596.79
20 560.02
20 532.91
20 500.79
Intensity
and
comment
200
40
40Hl
100
100H
1w
40
3
200H
2
2h
3hl
1w
0
1b
15hl
300h
3Hl
10Hl
8hl
40
0*
0*
100
2Hl
100h
15Hl
150
80h
5Hl
8Hl
80
10Hl
100
2h∧
40
3h∧
6Hl
1a
15Hl
1
40Hl
200
300h
2H
2b
2
1*
1*
1b
2000
3
2h∧*
2h∧*
40
800h
1h
500h
Term
J
Uncertainty of
observed
wavelength
共Å兲
关1兴ⴰ
关3兴ⴰ
关5兴
关2兴ⴰ
关1兴ⴰ
关2兴
关4兴
关1兴ⴰ
关4兴
关3兴
关1兴
关2兴
关2兴ⴰ
关5兴
关3兴
关4兴
关4兴ⴰ
关1兴
关2兴
关2兴
关1兴ⴰ
关2兴
关1兴ⴰ
关3兴
关3兴
关1兴
关5兴
关2兴
关2兴ⴰ
关3兴ⴰ
关4兴ⴰ
关2兴
关1兴
关2兴ⴰ
关2兴
关2兴ⴰ
关4兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴
关4兴ⴰ
关2兴
关4兴ⴰ
关1兴
关1兴ⴰ
关2兴
关1兴ⴰ
关5兴ⴰ
关2兴ⴰ
关1兴
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关4兴
关4兴
关2兴ⴰ
关2兴
关3兴ⴰ
关3兴ⴰ
3/2
5/2
11/2
5/2
1/2
3/2
9/2
3/2
7/2
5/2
3/2
3/2
3/2
11/2
7/2
7/2
9/2
1/2
3/2
5/2
3/2
3/2
1/2
7/2
5/2
3/2
11/2
5/2
5/2
5/2
7/2
3/2
1/2
3/2
3/2
5/2
7/2
5/2
3/2
3/2
7/2
5/2
9/2
3/2
3/2
5/2
1/2
9/2
5/2
1/2
5/2
7/2
7/2
5/2
9/2
7/2
3/2
5/2
7/2
7/2
0.01
0.01
0.05
0.02
0.01
0.02
0.05
0.01
0.05
0.05
0.01
0.02
0.02
0.05
0.05
0.05
0.05
0.02
0.01
0.02
0.05
0.02
0.01
0.05
0.05
0.01
0.05
0.02
0.02
0.01
0.01
0.05
0.05
0.01
0.02
0.01
0.02
0.01
0.02
0.05
0.05
0.02
0.01
0.02
0.01
0.01
0.01
0.05
0.01
0.01
0.01
0.05
0.01
0.05
0.02
0.02
0.01
0.01
0.02
0.01
Classification
Configuration
4 3
5p ( P1 )6s
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5s5p 6
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 S0 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 1 D2 )6s
Term
关1兴
关2兴
关5兴ⴰ
关2兴
关2兴
关2兴ⴰ
关3兴ⴰ
关2兴
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关5兴ⴰ
关5兴ⴰ
关4兴ⴰ
关4兴
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴
关2兴ⴰ
关1兴
关4兴ⴰ
关4兴ⴰ
关0兴ⴰ
关4兴ⴰ
关2兴ⴰ
关3兴
关1兴
关3兴
关3兴ⴰ
关1兴ⴰ
2
S
关2兴ⴰ
关2兴
关2兴
关2兴
关2兴
关1兴ⴰ
关4兴
关3兴ⴰ
关4兴
关1兴ⴰ
关2兴
关2兴ⴰ
关2兴
关3兴
关2兴
关1兴ⴰ
关2兴
关3兴
关2兴
关4兴
关3兴ⴰ
关3兴ⴰ
关2兴
关2兴ⴰ
关2兴
关2兴
J
3/2
3/2
11/2
3/2
3/2
3/2
7/2
5/2
7/2
5/2
5/2
1/2
1/2
9/2
9/2
7/2
9/2
3/2
3/2
5/2
5/2
5/2
1/2
7/2
7/2
1/2
9/2
3/2
5/2
3/2
5/2
5/2
3/2
1/2
3/2
3/2
5/2
5/2
3/2
1/2
7/2
5/2
7/2
3/2
3/2
3/2
3/2
7/2
5/2
1/2
5/2
5/2
5/2
7/2
7/2
7/2
3/2
5/2
5/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7s
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 1 S0 )5d
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7s
5p 4 ( 1 S0 )6p
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )7g
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )7s
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )7s
5p 4 ( 1 S0 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P0 )5g
5p 4 ( 3 P0 )5g
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7s
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )6p
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
83BER
83BER
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
83BER
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
814
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
4883.53
4884.15
4887.30
4890.09
4890.09
4892.18
4899.9
4905.20
4919.66
4921.48
4934.3
4965.00
4971.71
4972.71
4974.41
4974.87
4987.95
4988.77
4991.17
4993.03
4993.93
5001.01
5012.83
5017.41
5018.75
5036.15
5040.06
5044.92
5052.54
5066.33
5069.82
5073.8
5080.62
5081.07
5091.93
5099.59
5104.0
5104.0
5108.58
5122.42
5125.70
5164.7
5178.82
5182.25
5184.48
5188.04
5191.37
5192.10
5194.92
5199.9
5201.42
5201.88
5213.17
5218.20
5226.57
5226.90
5247.75
5259.89
5260.44
5261.95
Observed
wave
number
共cm⫺1兲
20 471.27
20 468.7
20 455.48
20 443.81
20 443.81
20 435.08
20 402.88
20 380.84
20 320.93
20 313.42
20 260.6
20 135.4
20 108.2
20 104.15
20 097.28
20 095.42
20 042.72
20 039.43
20 029.8
20 022.33
20 018.7
19 990.38
19 943.25
19 925.04
19 919.72
19 850.90
19 835.50
19 816.39
19 786.51
19 732.65
19 719.07
19 703.6
19 677.15
19 675.41
19 633.45
19 603.96
19 587.0
19 587.0
19 569.46
19 516.58
19 504.10
19 356.8
19 304.04
19 291.26
19 282.97
19 269.74
19 257.38
19 254.67
19 244.22
19 225.79
19 220.17
19 218.47
19 176.85
19 158.36
19 127.68
19 126.47
19 050.48
19 006.51
19 004.53
18 999.07
Intensity
and
comment
600h
100H
300h
300h*
300h*
2∧
1∧
2H
200
800
1
4Hl
200H
400h
1∧
2h
0
300h
100H
10
5Hl
3h
50Hl
1
1∧
3Hl
0b
150h
30h
3Hl
10Hw
1h∧
600h
30
60Hl
5H
1Hw*
1Hw*
2h
200h
30
1H50h
0
50
200
300
80
5H
1h∧
20
10H
1h
1H
20hl
10hl
20h
30
200
200
Term
J
Uncertainty of
observed
wavelength
共Å兲
关1兴ⴰ
关0兴
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关4兴
关1兴ⴰ
关6兴
关1兴ⴰ
关2兴ⴰ
关6兴
关2兴
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴
关2兴ⴰ
关1兴ⴰ
关2兴
关0兴ⴰ
关5兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴
关4兴
关1兴ⴰ
关2兴
关5兴ⴰ
关5兴ⴰ
关0兴
关2兴
关1兴
关2兴
关5兴ⴰ
关4兴
关4兴
关2兴
关2兴
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴
关2兴ⴰ
关1兴
关1兴ⴰ
关0兴
关5兴ⴰ
关1兴
关2兴ⴰ
关1兴
关4兴ⴰ
关3兴ⴰ
关1兴
关2兴ⴰ
关5兴ⴰ
关2兴
关2兴ⴰ
关2兴ⴰ
3/2
1/2
3/2
5/2
5/2
7/2
3/2
13/2
1/2
5/2
11/2
3/2
3/2
3/2
5/2
5/2
5/2
3/2
5/2
1/2
11/2
5/2
3/2
3/2
7/2
3/2
9/2
1/2
5/2
9/2
11/2
1/2
3/2
1/2
5/2
9/2
9/2
7/2
3/2
3/2
5/2
5/2
5/2
7/2
5/2
3/2
1/2
1/2
9/2
3/2
3/2
3/2
7/2
5/2
3/2
3/2
9/2
5/2
3/2
3/2
0.01
0.05
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.01
0.1
0.05
0.05
0.01
0.01
0.02
0.01
0.01
0.05
0.01
0.05
0.02
0.02
0.01
0.01
0.02
0.05
0.01
0.01
0.05
0.05
0.1
0.01
0.01
0.01
0.05
0.1
0.1
0.02
0.01
0.01
0.1
0.01
0.01
0.01
0.01
0.01
0.01
0.05
0.02
0.01
0.05
0.02
0.05
0.02
0.02
0.01
0.01
0.01
0.01
Classification
Configuration
4 3
5p ( P0 )6s
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 1 S0 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6s
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 S0 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 S0 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关0兴
关1兴ⴰ
关1兴
关3兴
关2兴
关3兴ⴰ
关0兴
关5兴ⴰ
关1兴
关1兴
关5兴ⴰ
关1兴ⴰ
关3兴
关2兴
关3兴
关1兴ⴰ
关3兴
关1兴
关1兴ⴰ
关0兴
关4兴
关2兴
关0兴
关1兴
关3兴
关1兴ⴰ
关5兴ⴰ
关2兴
关1兴ⴰ
关4兴
关4兴
关0兴ⴰ
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关4兴
关4兴ⴰ
关4兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴
关3兴
关2兴
关2兴ⴰ
关2兴
关2兴ⴰ
关0兴
关1兴ⴰ
关4兴
关1兴ⴰ
关2兴
关3兴ⴰ
关3兴
关2兴
关2兴ⴰ
关0兴
关3兴
关3兴ⴰ
关1兴
关2兴
J
1/2
1/2
3/2
7/2
5/2
5/2
1/2
11/2
1/2
3/2
9/2
3/2
5/2
5/2
5/2
3/2
5/2
1/2
3/2
1/2
9/2
3/2
1/2
1/2
5/2
3/2
11/2
3/2
3/2
9/2
9/2
1/2
5/2
3/2
7/2
7/2
7/2
7/2
1/2
1/2
5/2
7/2
5/2
5/2
3/2
5/2
1/2
3/2
7/2
1/2
5/2
5/2
7/2
3/2
3/2
1/2
7/2
5/2
1/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P0 )6p
5p 4 ( 3 P0 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5g
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )7g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )7g
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6d
5p 4 ( 3 P0 )5g
5p 4 ( 1 D2 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P0 )7s
5p 4 ( 3 P2 )7s
5p 4 ( 3 P1 )7s
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P0 )5g
5p 4 ( 3 P0 )5g
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )7s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )7s
5p 4 ( 3 P0 )6p
5p 4 ( 3 P0 )7s
5p 4 ( 3 P2 )6 f
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
815
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
5268.31
5268.31
5282.46
5291.3
5292.22
5309.27
5313.87
5319.83
5327.83
5339.33
5363.20
5368.07
5372.39
5415.36
5419.15
5428.07
5438.96
5445.45
5450.45
5450.90
5460.39
5469.54
5472.61
5481.13
5507.46
5518.56
5518.77
5525.53
5531.07
5551.50
5570.91
5572.19
5583.5
5591.61
5594.87
5612.89
5616.67
5624.78
5624.78
5633.24
5650.53
5659.38
5667.56
5670.91
5675.15
5681.87
5686.49
5688.20
5699.61
5716.10
5719.61
5726.91
5730.56
5744.2
5751.03
5752.56
5758.65
5776.39
5780.83
5791.88
Observed
wave
number
共cm⫺1兲
18 976.14
18 976.14
18 925.31
18 893.69
18 890.41
18 829.74
18 813.44
18 792.37
18 764.15
18 723.73
18 640.40
18 623.49
18 608.51
18 460.86
18 447.95
18 417.63
18 380.76
18 358.85
18 342.01
18 340.50
18 308.62
18 277.99
18 267.74
18 239.35
18 152.15
18 115.64
18 114.95
18 092.79
18 074.66
18 008.15
17 945.41
17 941.28
17 904.94
17 878.97
17 868.56
17 811.19
17 799.20
17 773.54
17 773.54
17 746.85
17 692.54
17 664.88
17 639.38
17 628.96
17 615.79
17 594.96
17 580.66
17 575.38
17 540.19
17 489.59
17 478.86
17 456.58
17 445.46
17 404.0
17 383.37
17 378.74
17 360.37
17 307.05
17 293.76
17 260.76
Intensity
and
comment
50*
50*
2h
2h
1000
200
800
3∧
3
1000
150
100
300
50H∧
2000
2hs∧
400
150
100
20
300
20h
500
1h
2h
1
1
50
400
4Hs∧
1
50
2H
2H
15Hw
1h150
1Hl*
1Hl*
3H
1h
150
300
50
1
1h
2h
2∧
100
100H
200
200
0
1∧
200
10
100
100
11hl
Term
J
Uncertainty of
observed
wavelength
共Å兲
关1兴ⴰ
关1兴ⴰ
关2兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴
关3兴ⴰ
关2兴
关2兴ⴰ
关1兴
关1兴ⴰ
关1兴ⴰ
关1兴
关3兴ⴰ
关1兴
关0兴ⴰ
关1兴
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关0兴
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关3兴ⴰ
关4兴ⴰ
关1兴
关3兴ⴰ
关3兴ⴰ
关6兴
关2兴ⴰ
关5兴
关2兴
关5兴
关1兴
关2兴ⴰ
关3兴
关2兴
关4兴
关4兴
关1兴ⴰ
关1兴ⴰ
关0兴
关1兴ⴰ
关2兴
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴
关3兴ⴰ
关2兴ⴰ
关1兴
关3兴
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴
1/2
3/2
3/2
3/2
5/2
3/2
5/2
5/2
5/2
3/2
1/2
1/2
1/2
3/2
5/2
3/2
1/2
1/2
3/2
3/2
7/2
1/2
7/2
3/2
7/2
5/2
9/2
3/2
5/2
7/2
11/2
3/2
11/2
3/2
9/2
3/2
5/2
5/2
5/2
7/2
7/2
1/2
1/2
1/2
1/2
3/2
5/2
3/2
5/2
5/2
5/2
5/2
3/2
5/2
3/2
3/2
7/2
3/2
5/2
5/2
0.01
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.05
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.01
0.05
0.05
0.05
0.02
0.01
0.05
0.05
0.05
0.02
0.01
0.01
0.01
0.01
0.02
0.02
0.01
0.01
0.01
0.01
0.01
0.05
0.1
0.01
0.01
0.01
0.01
0.01
0.02
Classification
Configuration
4 1
5p ( S0 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 1 S0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6p
Term
关0兴
关1兴
关1兴ⴰ
关2兴
关2兴
关1兴
关3兴ⴰ
关3兴
关1兴ⴰ
关2兴
关1兴ⴰ
关0兴
关2兴
关0兴ⴰ
关2兴
关1兴ⴰ
关1兴
关1兴ⴰ
关0兴
关2兴
关2兴
关1兴ⴰ
关3兴
关2兴
关3兴
关2兴
关3兴
关1兴ⴰ
关3兴
关3兴
关4兴ⴰ
关1兴
关4兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关3兴ⴰ
关1兴
关2兴
关2兴ⴰ
关1兴
关2兴ⴰ
关1兴
关0兴
关2兴
关2兴ⴰ
关2兴
关3兴
关3兴ⴰ
关2兴ⴰ
关1兴
关1兴
关2兴
关0兴
关4兴
关1兴ⴰ
J
1/2
3/2
3/2
5/2
5/2
3/2
7/2
7/2
3/2
5/2
3/2
1/2
3/2
1/2
3/2
3/2
3/2
1/2
1/2
3/2
5/2
3/2
7/2
3/2
7/2
5/2
7/2
3/2
7/2
5/2
9/2
3/2
9/2
3/2
7/2
1/2
3/2
5/2
3/2
5/2
5/2
1/2
3/2
3/2
3/2
5/2
3/2
1/2
3/2
5/2
3/2
5/2
5/2
3/2
1/2
1/2
5/2
1/2
7/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 1
5p ( S0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )7s
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6g
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )6g
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6g
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )7s
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )7s
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )8s
5p 4 ( 3 P2 )6g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
816
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
5809.5
5815.96
5821.57
5824.79
5835.5
5849.28
5855.47
5859.47
5877.25
5889.82
5890.26
5891.70
5893.29
5905.13
5909.67
5912.80
5913.32
5917.44
5921.50
5928.15
5934.14
5934.55
5934.99
5945.53
5958.03
5964.52
5971.13
5973.0
5976.46
5979.2
5988.44
5991.86
5998.3
5998.67
6000.3
6008.92
6024.14
6024.58
6036.20
6048.53
6051.15
6083.21
6093.50
6097.59
6101.43
6107.64
6115.08
6127.44
6143.40
6146.45
6155.28
6184.57
6185.03
6185.79
6194.07
6203.45
6235.40
6255.32
6270.82
6277.54
Observed
wave
number
共cm⫺1兲
17 208.41
17 189.30
17 172.74
17 163.24
17 131.74
17 091.38
17 073.32
17 061.66
17 010.05
16 973.74
16 972.48
16 968.33
16 963.75
16 929.74
16 916.73
16 907.78
16 906.29
16 894.52
16 882.93
16 864.00
16 846.97
16 845.81
16 844.56
16 814.70
16 779.42
16 761.17
16 742.61
16 737.4
16 727.68
16 720.0
16 694.22
16 684.69
16 666.8
16 665.75
16 661.2
16 637.32
16 595.28
16 594.07
16 562.13
16 528.37
16 521.21
16 434.14
16 406.39
16 395.38
16 385.06
16 368.41
16 348.49
16 315.51
16 273.13
16 265.05
16 241.72
16 164.80
16 163.60
16 161.61
16 140.01
16 115.60
16 033.03
15 981.97
15 942.47
15 925.40
Intensity
and
comment
1Hw
50
115Hw
0
1
2H
14
0
4
150
200
30h
5h
1
50
1
3H∧
2
1H
0
300
50
1200
1h
1000
1H
1
1H
1∧
0b
1100
2∧
3H
500
5h∧
1000
1h300
1000
200
0
50
2
1h
50
1Hw20
15
1H∧
300
1h∧
1h
2Hl∧
400
300
Term
J
Uncertainty of
observed
wavelength
共Å兲
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴ⴰ
关6兴
关5兴
关2兴
关2兴
关6兴
关4兴
关4兴
关5兴
关1兴ⴰ
关0兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关2兴
关3兴
关4兴
关4兴
关5兴
关1兴ⴰ
关2兴ⴰ
关4兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关3兴
关3兴
关2兴ⴰ
关1兴ⴰ
关4兴
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关0兴
关2兴ⴰ
关1兴
关2兴ⴰ
关2兴
关2兴
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴
关1兴ⴰ
关2兴
关1兴ⴰ
关3兴ⴰ
关1兴
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴
关3兴ⴰ
关2兴ⴰ
3/2
1/2
3/2
7/2
13/2
11/2
3/2
3/2
11/2
9/2
7/2
11/2
3/2
1/2
3/2
3/2
3/2
5/2
3/2
5/2
9/2
7/2
9/2
1/2
3/2
7/2
3/2
3/2
3/2
7/2
7/2
3/2
1/2
7/2
3/2
5/2
5/2
1/2
5/2
3/2
5/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
3/2
5/2
1/2
5/2
3/2
5/2
1/2
3/2
5/2
5/2
5/2
0.05
0.01
0.01
0.01
0.05
0.05
0.01
0.05
0.01
0.05
0.01
0.05
0.01
0.01
0.02
0.01
0.01
0.01
0.01
0.05
0.01
0.05
0.01
0.01
0.01
0.01
0.01
0.1
0.01
0.1
0.01
0.02
0.1
0.01
0.1
0.01
0.01
0.02
0.01
0.02
0.01
0.02
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.05
0.01
0.01
0.05
0.01
0.02
0.02
0.05
0.01
0.01
Classification
Configuration
4 3
5p ( P2 )6d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )7s
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关3兴
关2兴
关3兴
关2兴
关5兴ⴰ
关5兴ⴰ
关3兴ⴰ
关1兴ⴰ
关5兴ⴰ
关5兴ⴰ
关5兴ⴰ
关5兴ⴰ
关2兴
关1兴
关1兴
关2兴
关1兴ⴰ
关2兴
关0兴ⴰ
关3兴ⴰ
关4兴ⴰ
关4兴ⴰ
关4兴ⴰ
关1兴
关3兴
关2兴
关2兴
关0兴
关2兴
关3兴ⴰ
关2兴ⴰ
关2兴
关1兴
关2兴ⴰ
关1兴
关3兴
关1兴
关1兴ⴰ
关2兴
关2兴ⴰ
关3兴
关1兴ⴰ
关1兴ⴰ
关2兴
关1兴
关3兴
关1兴
关1兴
关1兴ⴰ
关1兴
关3兴ⴰ
关1兴
关2兴
关2兴ⴰ
关1兴
关1兴
关2兴
关2兴ⴰ
关2兴
关2兴
J
5/2
3/2
5/2
5/2
11/2
11/2
5/2
1/2
9/2
9/2
9/2
9/2
5/2
1/2
3/2
3/2
1/2
3/2
1/2
7/2
7/2
7/2
7/2
1/2
5/2
5/2
3/2
1/2
3/2
5/2
5/2
5/2
3/2
5/2
3/2
5/2
3/2
3/2
5/2
5/2
7/2
3/2
3/2
5/2
3/2
5/2
1/2
3/2
3/2
3/2
7/2
1/2
5/2
3/2
3/2
3/2
5/2
5/2
3/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 1
5p ( D2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )7s
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )8s
5p 4 ( 3 P2 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )6g
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6g
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P0 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 3 P2 )7s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
83BER
93GAL
83BER
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
817
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
6284.41
6296.39
6298.31
6300.86
6305.01
6311.46
6318.03
6343.96
6353.20
6356.35
6375.28
6397.99
6418.58
6421.47
6426.73
6440.18
6442.3
6461.48
6479.69
6483.97
6502.47
6510.06
6512.28
6512.83
6515.48
6515.48
6528.65
6545.58
6556.70
6563.19
6569.13
6573.68
6595.01
6597.25
6598.84
6614.96
6618.40
6619.33
6620.02
6634.13
6638.85
6642.9
6663.1
6665.59
6691.22
6694.32
6702.25
6744.27
6756.83
6788.71
6790.37
6805.74
6910.22
6990.88
7003.96
7017.06
7052.57
7072.43
7075.0
7082.15
Observed
wave
number
共cm⫺1兲
15 907.99
15 877.73
15 872.89
15 866.46
15 856.02
15 839.81
15 823.34
15 758.67
15 735.75
15 727.95
15 681.25
15 625.59
15 575.46
15 568.46
15 555.71
15 523.23
15 518.12
15 472.05
15 428.57
15 418.39
15 374.52
15 356.60
15 351.36
15 350.07
15 343.82
15 343.82
15 312.87
15 273.27
15 247.36
15 232.29
15 218.51
15 207.98
15 158.79
15 153.65
15 149.99
15 113.08
15 105.22
15 103.10
15 101.52
15 069.41
15 058.69
15 049.5
15 003.9
14 998.28
14 940.83
14 933.91
14 916.24
14 823.31
14 795.76
14 726.27
14 722.67
14 689.43
14 467.33
14 300.41
14 273.70
14 247.05
14 175.32
14 135.51
14 130.38
14 116.114
Intensity
and
comment
50
10H∧
20
100
1h
5Hw
5
300
50Hl
500
100
60
20
1∧
2H∧
2H∧
1H∧
10H∧
2H
0
0
0
0
300h
1H*
1H*
200h
4w
4
15
5
30
800
300
80
10H
50
3
200h
6Hl
2h
1h
2
2
1
400h
80
0
0
100h
80h
1000
100
2000
50
80
3Hw
4Hw
2Hs
200
Term
J
Uncertainty of
observed
wavelength
共Å兲
关2兴ⴰ
关1兴
关2兴ⴰ
关0兴ⴰ
关2兴ⴰ
关3兴
关1兴ⴰ
关2兴ⴰ
关2兴
关4兴ⴰ
关1兴ⴰ
关1兴ⴰ
关0兴
关2兴
关1兴
关3兴
关2兴
关0兴
关2兴ⴰ
关2兴ⴰ
关1兴
关2兴
关1兴
关2兴ⴰ
关1兴
关3兴ⴰ
关3兴ⴰ
关2兴
关2兴ⴰ
关0兴ⴰ
关1兴
关2兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴
关1兴ⴰ
关1兴
关2兴ⴰ
关3兴ⴰ
关3兴
关3兴ⴰ
关2兴
关2兴ⴰ
关1兴ⴰ
关2兴
关3兴
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关0兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关1兴ⴰ
关3兴ⴰ
5/2
3/2
3/2
1/2
3/2
5/2
3/2
3/2
5/2
7/2
3/2
3/2
1/2
3/2
1/2
7/2
5/2
1/2
3/2
3/2
1/2
3/2
3/2
3/2
3/2
5/2
7/2
3/2
3/2
1/2
1/2
5/2
7/2
3/2
7/2
5/2
5/2
5/2
1/2
3/2
5/2
7/2
5/2
5/2
5/2
3/2
3/2
3/2
7/2
3/2
3/2
5/2
1/2
7/2
1/2
3/2
7/2
7/2
3/2
5/2
0.01
0.05
0.01
0.01
0.02
0.05
0.01
0.01
0.05
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.01
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.02
0.01
0.05
0.01
0.05
0.02
0.1
0.1
0.01
0.01
0.01
0.01
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.1
0.01
Classification
Configuration
4 1
5p ( D2 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )7s
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )7s
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )7s
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
Term
关2兴
关2兴ⴰ
关2兴
关1兴
关2兴
关2兴ⴰ
关1兴
关2兴
关1兴ⴰ
关2兴
关0兴
关0兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关1兴
关0兴
关0兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴
关1兴ⴰ
关2兴
关3兴
关3兴ⴰ
关2兴
关0兴
关2兴ⴰ
关1兴
关4兴
关3兴
关4兴
关1兴
关2兴
关2兴ⴰ
关1兴
关1兴ⴰ
关1兴
关2兴
关2兴ⴰ
关2兴
关1兴ⴰ
关1兴
关3兴
关1兴ⴰ
关3兴ⴰ
关2兴
关1兴
关3兴
关0兴
关4兴
关1兴
关2兴
关3兴
关2兴
关0兴
关3兴
J
5/2
5/2
3/2
3/2
5/2
3/2
3/2
3/2
3/2
5/2
1/2
1/2
1/2
5/2
3/2
7/2
5/2
3/2
3/2
1/2
1/2
5/2
3/2
3/2
1/2
5/2
5/2
5/2
5/2
1/2
3/2
3/2
9/2
5/2
7/2
3/2
5/2
5/2
3/2
1/2
3/2
5/2
3/2
5/2
3/2
1/2
5/2
1/2
5/2
5/2
1/2
7/2
1/2
9/2
1/2
3/2
7/2
5/2
1/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 S0 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )8s
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )8s
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )7p
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )4 f
5p 4 ( 1 S0 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )8s
5p 4 ( 1 D2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 1 D2 )6p
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
93GAL
83BER
83BER
83BER
87HAN
87HAN
87HAN
87HAN
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
83BER
93GAL
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
818
E. B. SALOMAN
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
7094.7
7100.8
7133.27
7147.50
7149.03
7164.83
7215.97
7245.38
7258.6
7258.6
7279.75
7279.75
7284.34
7301.80
7339.30
7343.37
7378.38
7400.5
7410.14
7458.0
7472.0
7495.36
7503.00
7508.6
7508.6
7530.70
7548.45
7594.6
7618.57
7670.66
7712.42
7772.12
7787.04
7805.8
7826.1
7862.7
7882.71
7882.71
7889.4
7892.6
7897.7
7920.48
7976.4
7976.4
7987.99
7991.5
7991.5
8001.95
8005.8
8008.45
8014.26
8020.07
8031.64
8035.40
8038.26
8080.31
8115.94
8115.94
8136.83
8142.6
Observed
wave
number
共cm⫺1兲
14 091.14
14 079.04
14 014.953
13 987.05
13 984.057
13 953.219
13 854.33
13 798.10
13 772.97
13 772.97
13 732.95
13 732.95
13 724.298
13 691.481
13 621.52
13 613.98
13 549.378
13 508.88
13 491.31
13 404.73
13 379.61
13 337.914
13 324.33
13 314.40
13 314.40
13 275.323
13 244.106
13 163.63
13 122.210
13 033.101
12 962.531
12 862.96
12 838.317
12 807.46
12 774.24
12 714.78
12 682.503
12 682.503
12 671.75
12 666.61
12 658.43
12 622.03
12 533.54
12 533.54
12 515.352
12 509.85
12 509.85
12 493.52
12 487.51
12 483.38
12 474.33
12 465.291
12 447.33
12 441.51
12 437.08
12 372.36
12 318.04
12 318.04
12 286.42
12 277.71
Intensity
and
comment
1Hw
5h∧
10
100H
300h
800h
20h
2h
2H*
2H*
4Hws*
4Hws*
100
200
300h
30Hw
30
4h
4Hw
2H
150
3h
1H*
1H*
50
300
1H
100
200
30
20hl
100
1
2
3
20*
20*
50h
8h
5Hs
10Hw
3Hw*
3Hw*
40
5H*
5H*
10hs
2
300h
50hs
5
100h
20h
100h
50hs
50h*
50h*
30h
5H
Term
J
Uncertainty of
observed
wavelength
共Å兲
关3兴ⴰ
关2兴
关2兴
关5兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴
关0兴ⴰ
关2兴
关4兴ⴰ
关4兴ⴰ
关2兴
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关5兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴
关2兴ⴰ
关3兴
关1兴
关1兴ⴰ
关2兴
关2兴ⴰ
关0兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴
关2兴ⴰ
关1兴ⴰ
关2兴
关1兴
关2兴ⴰ
关4兴ⴰ
关5兴
关2兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴ⴰ
关1兴ⴰ
关2兴
关3兴
关2兴ⴰ
关5兴
关5兴
关0兴
关4兴
关4兴
关5兴
关3兴
关3兴
关4兴
关3兴
关1兴
5/2
3/2
3/2
11/2
3/2
5/2
3/2
1/2
3/2
7/2
7/2
3/2
3/2
3/2
3/2
9/2
5/2
1/2
3/2
5/2
7/2
1/2
3/2
5/2
3/2
1/2
1/2
1/2
5/2
1/2
3/2
5/2
3/2
3/2
3/2
3/2
5/2
7/2
11/2
3/2
1/2
3/2
3/2
3/2
1/2
1/2
5/2
7/2
3/2
11/2
9/2
1/2
9/2
7/2
9/2
5/2
5/2
7/2
7/2
3/2
0.1
0.02
0.01
0.05
0.01
0.01
0.02
0.02
0.1
0.1
0.05
0.05
0.01
0.01
0.02
0.05
0.01
0.1
0.05
0.1
0.1
0.01
0.02
0.05
0.05
0.01
0.01
0.1
0.01
0.01
0.01
0.02
0.01
0.1
0.1
0.1
0.01
0.01
0.02
0.02
0.1
0.05
0.1
0.1
0.01
0.1
0.1
0.02
0.1
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.1
Classification
Configuration
4 3
5p ( P2 )6d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P0 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6s
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P1 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 1 S0 )5d
5p 4 ( 3 P1 )7s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P0 )6s
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
关2兴
关1兴ⴰ
关3兴ⴰ
关4兴
关1兴
关4兴
关1兴ⴰ
关2兴
关1兴ⴰ
关3兴
关2兴
关2兴ⴰ
关1兴
关2兴
关2兴
关4兴
关2兴
关1兴
关1兴ⴰ
关2兴
关2兴ⴰ
关1兴ⴰ
关1兴
关2兴ⴰ
关0兴
关1兴
关2兴
关0兴
关3兴
关2兴
关2兴
关2兴ⴰ
关3兴
关2兴
关1兴ⴰ
关1兴ⴰ
关2兴
关4兴
关4兴ⴰ
关2兴
关2兴
关2兴
关1兴
关1兴
关0兴
关1兴
关2兴ⴰ
关3兴ⴰ
关1兴
关4兴ⴰ
关4兴ⴰ
关1兴ⴰ
关3兴ⴰ
关3兴ⴰ
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
J
3/2
3/2
5/2
9/2
3/2
7/2
1/2
3/2
3/2
7/2
5/2
5/2
3/2
5/2
5/2
7/2
5/2
1/2
1/2
5/2
5/2
1/2
1/2
3/2
1/2
3/2
3/2
1/2
5/2
3/2
3/2
3/2
5/2
3/2
1/2
3/2
3/2
7/2
9/2
3/2
3/2
5/2
1/2
1/2
1/2
3/2
3/2
7/2
1/2
9/2
9/2
3/2
7/2
7/2
7/2
5/2
5/2
5/2
5/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P1 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5 f
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P2 )5 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )6d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 1 S0 )5d
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 S0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5g
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )7s
5p 4 ( 3 P1 )7s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P1 )5g
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 S0 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 1 S0 )6s
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 1 D2 )5d
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
SPECTRAL LINES OF XENON
819
Spectral lines of Xe II—Continued
Observed
air
wavelength
共Å兲
8151.80
8214.85
8262.73
8285.70
8297.55
8316.2
8329.44
8339.1
8347.24
8351.3
8351.3
8378.3
8465.7
8467.8
8482.64
8515.19
8565.1
8566.7
8584.0
8604.23
8628.94
8716.19
8752.14
8760.14
8785.88
8796.92
8804.61
8804.61
8855.74
8896.7
8902.66
9017.8
9106.24
9193.8
9226.39
9259.60
9265.67
9288.4
9304.77
9331.67
9400.59
9447.6
9475.23
9591.35
9604.50
9615.71
9671.6
9698.68
9774.8
9837.8
10 220.8
10 914.31
11 116.69
Observed
wave
number
共cm⫺1兲
12 263.857
12 169.731
12 099.21
12 065.67
12 048.44
12 021.42
12 002.31
11 988.41
11 976.716
11 970.89
11 970.89
11 932.32
11 809.13
11 806.20
11 785.54
11 740.49
11 672.08
11 669.90
11 646.38
11 619.00
11 585.73
11 469.75
11 422.64
11 412.21
11 378.77
11 364.49
11 354.568
11 354.568
11 289.01
11 237.04
11 229.51
11 086.14
10 978.468
10 873.91
10 835.50
10 796.64
10 789.57
10 763.16
10 744.23
10 713.26
10 634.71
10 581.80
10 550.94
10 423.20
10 408.93
10 396.80
10 336.72
10 307.85
10 227.58
10 162.09
9781.29
9159.774
8993.021
Intensity
and
comment
100
20
30h
15h
100h
10Hw
30Hw
1
100
3*
3*
5h
2h
15h
50Hw
1h
2h
1
50Hw
25h
50h
7H
6H
4Hw
2h
30*
30*
5H
1h5H
1
1
2h
7h
1h
10h
5H
1h
4h
15h
1
3h
50h
7h
4h
1h50hl
1h
2h
3h
Term
J
Uncertainty of
observed
wavelength
共Å兲
关4兴
关3兴ⴰ
关4兴
关1兴ⴰ
关4兴
关3兴ⴰ
关3兴
关4兴ⴰ
关3兴ⴰ
关2兴ⴰ
关3兴ⴰ
关2兴
关3兴ⴰ
关0兴
关2兴ⴰ
关6兴
关4兴
关5兴
关1兴ⴰ
关6兴
关1兴ⴰ
关1兴ⴰ
关4兴
关5兴
关2兴
关1兴ⴰ
关2兴
关2兴ⴰ
关3兴
关4兴
关2兴
关1兴ⴰ
关3兴ⴰ
关1兴ⴰ
关1兴ⴰ
关3兴ⴰ
关2兴
关1兴ⴰ
关2兴
关3兴ⴰ
关2兴ⴰ
关1兴ⴰ
关2兴ⴰ
关2兴ⴰ
关2兴ⴰ
关1兴
关4兴
关1兴ⴰ
关1兴
关1兴ⴰ
关3兴ⴰ
关2兴ⴰ
关2兴ⴰ
7/2
7/2
7/2
3/2
9/2
7/2
5/2
9/2
5/2
3/2
5/2
3/2
5/2
1/2
5/2
13/2
9/2
11/2
1/2
11/2
3/2
3/2
9/2
9/2
3/2
3/2
5/2
5/2
7/2
7/2
5/2
3/2
7/2
1/2
3/2
7/2
5/2
1/2
3/2
5/2
3/2
3/2
3/2
5/2
5/2
3/2
7/2
3/2
1/2
1/2
5/2
5/2
3/2
0.01
0.01
0.02
0.02
0.02
0.1
0.05
0.1
0.01
0.1
0.1
0.1
0.1
0.1
0.02
0.05
0.1
0.1
0.1
0.05
0.02
0.02
0.05
0.05
0.05
0.02
0.01
0.01
0.05
0.1
0.05
0.1
0.01
0.1
0.02
0.02
0.02
0.1
0.02
0.02
0.02
0.1
0.02
0.02
0.02
0.02
0.1
0.02
0.1
0.1
0.1
0.02
0.02
Classification
Configuration
4 3
5p ( P2 )4 f
5p 4 ( 3 P2 )5d
5p 4 ( 3 P0 )4 f
5p 4 ( 1 D2 )6s
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )6d
5p 4 ( 3 P2 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6d
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6s
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P2 )4 f
5p 4 ( 1 S0 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )6d
5p 4 ( 3 P2 )6p
5p 4 ( 1 S0 )6s
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6s
5p 4 ( 3 P0 )6s
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )5d
5p 4 ( 3 P1 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 1 S0 )5d
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6s
5p 4 ( 3 P1 )6s
Term
关3兴ⴰ
关4兴
关3兴ⴰ
关2兴
关3兴ⴰ
关2兴
关2兴ⴰ
关4兴
关4兴
关2兴
关2兴
关2兴ⴰ
关2兴
关2兴ⴰ
关2兴
关5兴ⴰ
关3兴ⴰ
关5兴ⴰ
关2兴
关5兴ⴰ
关2兴
关1兴
关4兴ⴰ
关4兴ⴰ
关1兴ⴰ
关2兴
关2兴ⴰ
关3兴
关2兴ⴰ
关2兴ⴰ
关1兴ⴰ
关0兴
关3兴
关1兴
关0兴
关2兴
关3兴ⴰ
关0兴
关1兴ⴰ
关1兴
关0兴
关3兴
关2兴
关4兴
关2兴
关1兴ⴰ
关4兴ⴰ
关3兴
关1兴ⴰ
关2兴
关3兴
关1兴
关1兴
J
5/2
7/2
5/2
5/2
7/2
5/2
3/2
7/2
7/2
3/2
5/2
5/2
3/2
3/2
3/2
11/2
7/2
11/2
3/2
9/2
5/2
3/2
7/2
7/2
1/2
3/2
5/2
7/2
5/2
5/2
3/2
1/2
5/2
3/2
1/2
5/2
5/2
1/2
3/2
3/2
1/2
5/2
5/2
7/2
5/2
1/2
7/2
5/2
3/2
3/2
5/2
3/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4 3
5p ( P2 )5g
5p 4 ( 3 P2 )6p
5p 4 ( 3 P0 )5g
5p 4 ( 3 P0 )6p
5p 4 ( 3 P0 )5g
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )4 f
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )4 f
5p 4 ( 3 P0 )4 f
5p 4 ( 3 P0 )6d
5p 4 ( 3 P0 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )5g
5p 4 ( 3 P2 )4 f
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )4 f
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )7p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P1 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 3 P0 )5g
5p 4 ( 3 P2 )6p
5p 4 ( 1 D2 )5d
5p 4 ( 1 S0 )6p
5p 4 ( 1 D2 )6p
5p 4 ( 3 P2 )6p
5p 4 ( 3 P2 )6p
Source
of
line
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
87HAN
02ZIE
02ZIE
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
820
E. B. SALOMAN
4.3. Xe III
Te isoelectronic sequence
Ground state
1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 105s 2 5p 4 3 P2
Ionization energy 250 400⫾300 cm⫺1 共31.05⫾0.04 eV兲
关79GAL兴 关88PER兴
A thorough analysis of the spectrum of doubly ionized
xenon, Xe III, was published in 1988 by Persson et al.
关88PER兴. They obtained a set of energy levels, which we use
here, from a list of Xe III lines they compiled from three
sources. For wavelengths of 2000 Å and less, they made
measurements at Lund using as the source of their lines either a dc hollow cathode discharge or a theta-pinch discharge. Quoted uncertainty for these measurements was 0.02
Å. For wavelengths greater than 2000 Å, they made measurements at La Plata using as the source of their lines a
laser–tube-like source viewed end on. Quoted uncertainty
for these measurements was 0.05 Å. Due to the energy of
this source, some lines were seen which may not appear in
conventional sources and some transitions may be subject to
line shifts. In addition they included a few lines from the
unpublished line list of Humphreys 关81HUM兴 which contains published 关36HUM兴, 关36BOY兴, 关39HUM兴 and unpublished lines fromHumphreys and from Boyce. These lines are
indicated by parentheses around the stated intensity in our
Xe III line table. We quote the wavelengths with the number
of digits provided by Persson et al. 关88PER兴 even if the
quoted uncertainty is larger. Four lines 共6359, 4289, 1402,
and 1321 Å兲 are classified in Persson et al. 关88PER兴 as ⌬J
⫽2 transitions which involve a parity change. Since this
eliminates E1, E2, and M1 transitions, we have not included
these lines. Nine lines in Persson et al. 关88PER兴 are classified as transitions involving the ( 2 Pⴰ )6d 3 Dⴰ1 level with an
energy of 210 819.29 cm⫺1. This level is not included in their
table of odd parity levels but we include it here. Note that
our calculation indicates that this level could, perhaps, be
better designated as ( 2 Pⴰ )7s 3 Pⴰ1 but we will use the 关88PER兴
designation. Another analysis by Romeo y Bidegain et al.
关98ROM兴 concludes that the ( 4 Sⴰ )4 f 5 F2 and 5 F3 levels
should be designated as ( 2 Dⴰ )6 p 3 P2 and 3 D3 , respectively,
but here also we will use the designations of Persson et al.
关88PER兴. We have also corrected four misprints in their line
list.
An additional source of lines for our line table came from
Gallardo, Raineri, and Reyna Almandos 关93GAL兴. Their
quoted uncertainty is 0.01 Å. They used a capillary pulsed
discharge for wavelengths less than 2000 Å and laser–tubelike sources for wavelengths greater than 2000 Å. Comments
above about the laser–tube-like sources apply to this work as
well. Where duplicate lines appeared in both works, this data
set was used in preference to that in 关88PER兴. 22 additional
lines were added to our list from Humphreys’s unpublished
compilation 关81HUM兴.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
All candidate lines were passed through a program to determine if they correspond to a transition between the known
Xe III levels. Only classifiable lines are included in our compilation.
Transition probability calculations using the Cowan codes
关81COW兴 with empirically adjusted configuration average
energies were used to help resolve choices between multiple
possible classifications of lines. Intensities reported are those
given in the stated references.
The intensity codes given in the Xe III line table are taken
from the specified sources. Their meaning is stated below:
Symbol
Definition
a
affected
b
blend
h
hazy
H
very hazy
u
unsymmetric
w
wide
*
two or more classifications of this line share the
same intensity
The ionization energy was determined by isoelectronic
comparisons by Gallardo et al. 关79GAL兴 and confirmed by
关88PER兴. The values of g J included in the Xe III level table
were compiled by 关58MOO兴 from the results reported by
关39HUM兴.
References
36BOY
36HUM
39HUM
58MOO
79GAL
81COW
81HUM
88PER
93GAL
98ROM
J. C. Boyce, Phys. Rev. 49, 730 共1936兲.
C. J. Humphreys, J. Res. Nat. Bur. Stand. 16,
639 共1936兲.
C. J. Humphreys, W. F. Meggers, and T. L.
deBruin, J. Res. Nat. Bur. Stand. 23, 683
共1939兲.
C. E. Moore, Atomic Energy Levels, Vol. III,
National Bureau of Standards 共U.S.兲 Circ. No.
467 共U.S. Government Printing Office,
Washington, D.C., 1958兲.
M. Gallardo, C. A. Massone, A. A. Tagliaferri,
and M. Garavaglia, Phys. Scr. 19, 538 共1979兲.
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
C. J. Humphreys, Compilation of the Spectra of
Ionized Xenon, 1981 共unpublished兲.
W. Persson, W.-G. Wahlström, G. Bertuccelli,
H. O. Di Rocco, J. G. Reyna Almandos, and M.
Gallardo, Phy. Scr. 38, 347 共1988兲.
M. Gallardo, M. Raineri, and J. G. Reyna
Almandos, Spectros. Lett. 26, 1241 共1993兲.
M. Romeo y Bidegain, D. Iriarte, G.
Bertuccelli, and H. O. Di Rocco, Phys. Scr. 57,
495 共1988兲.
SPECTRAL LINES OF XENON
821
Energy levels of Xe III
Energy level
共cm⫺1兲
Parity
Configuration
0.00
8 130.08
9 794.36
17 098.73
36 102.94
0
0
0
0
0
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
P
P
3
P
1
D
1
S
98 262.47
103 568.20
108 333.76
163 527.40
1
1
1
1
5s5p 5
5s5p 5
5s5p 5
5s5p 5
3 ⴰ
111 605.41
111 856.38
112 271.78
112 449.90
112 693.95
117 240.08
119 026.03
121 229.58
121 922.75
124 691.33
126 119.77
127 782.14
128 349.15
130 173.73
132 159.94
132 711.78
133 234.01
136 367.48
140 437.79
140 730.93
142 064.27
143 156.24
145 300.13
145 340.91
147 797.41
148 370.13
148 412.84
148 535.52
150 404.24
153 893.20
154 639.37
155 400.90
156 392.68
160 733.77
161 809.98
162 957.50
175 052.36
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5
121 475.94
125 617.06
134 667.42
138 145.49
138 658.20
143 048.20
150 505.31
151 482.43
158 928.10
159 388.18
1
1
1
1
1
1
1
1
1
1
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
146 781.48
146 962.42
149 061.57
150 301.10
152 057.72
0
0
0
0
0
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
Term
3
J
gJ
Source
of level
2
0
1
2
0
88PER
88PER
88PER
88PER
88PER
P
P
3 ⴰ
P
1 ⴰ
P
2
1
0
1
88PER
88PER
88PER
88PER
Dⴰ
Dⴰ
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
G
3 ⴰ
G
3 ⴰ
F
3 ⴰ
G
1 ⴰ
G
3 ⴰ
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
S
3 ⴰ
P
1 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
1 ⴰ
D
1 ⴰ
F
1 ⴰ
P
3
2
4
1
0
2
1
3
1
2
3
4
3
4
5
4
1
2
0
1
2
3
2
3
1
2
3
4
2
2
1
1
3
0
2
3
1
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
5 ⴰ
2
1
2
1
3
2
0
1
2
1
1.95
1.77
1.18
0.50
1.33
0.96
1
2
3
1
2
2.28
1.70
1.57
1.59
1.50
3
3 ⴰ
5
S
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
5
P
P
5
P
3
P
3
P
5
0.38
0.90
1.56
1.12
1.22
0.81
1.47
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
822
E. B. SALOMAN
Energy levels of Xe III—Continued
Energy level
共cm⫺1兲
Parity
Configuration
152 808.17
158 996.98
160 691.30
162 259.97
162 594.81
164 438.64
164 511.65
165 941.69
166 554.82
166 699.11
167 066.32
168 086.00
171 989.82
175 231.15
177 955.93
178 029.33
178 054.53
182 134.14
184 009.10
184 594.45
185 888.03
186 320.88
190 491.16
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
166 355.27
166 374.06
166 743.80
166 880.09
167 173.54
170 250.15
173 734.12
173 946.53
178 306.08
178 887.17
181 356.80
181 593.70
181 684.94
182 377.01
183 472.95
184 114.53
185 406.74
186 022.92
186 086.52
186 614.26
186 992.43
188 412.56
188 792.52
189 701.46
189 778.94
189 824.07
192 425.21
196 156.21
197 254.25
197 953.29
203 359.91
204 382.87
204 904.40
206 760.00
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
182 337.88
182 464.48
182 521.94
1
1
1
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
J
P
D
3
F
3
D
3
F
1
F
1
P
3
P
3
F
3
D
3
P
3
P
1
D
3
D
3
D
3
P
3
P
3
S
1
D
3
D
1
P
3
P
1
S
0
1
2
2
3
3
1
0
4
3
2
1
2
1
2
1
0
1
2
3
1
2
0
5
F
F
5
F
5
F
5
F
3
F
3
F
3
F
3
G
3
G
3
H
3
F
3
H
3
D
1
P
3
G
3
F
1
H
3
H
3
F
3
D
3
P
3
D
3
P
1
F
1
D
1
G
3
F
3
F
3
G
3
D
3
D
1
G
3
F
4
3
5
2
1
3
2
4
3
4
5
2
4
3
1
5
4
5
6
3
2
2
1
1
3
2
4
3
2
3
2
3
4
4
Dⴰ
Dⴰ
5 ⴰ
D
2
3
0
3
5
5
5
gJ
0.84
1.17
1.08
1.09
0.42
1.28
1.30
1.08
0.65
1.18
1.51
1.31
1.22
1.38
Source
of level
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
SPECTRAL LINES OF XENON
823
Energy levels of Xe III—Continued
Energy level
共cm⫺1兲
Parity
Configuration
182 551.32
182 716.33
185 120.90
186 384.04
186 589.15
195 977.67
196 261.50
196 538.07
196 608.91
196 876.63
197 090.86
198 491.98
199 104.12
200 050.60
200 425.68
200 471.83
200 650.23
201 512.20
201 618.48
202 035.68
202 805.90
203 376.04
203 845.36
210 819.29
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6d
5
182 482.74
183 786.24
195 907.04
196 140.93
200 033.45
200 539.71
1
1
1
1
1
1
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )7s
197 310.57
197 460.67
197 585.82
197 611.00
197 860.38
0
0
0
0
0
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5
210 857.49
0
5p 6
Source
of level
Term
J
Dⴰ
Dⴰ
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
G
1 ⴰ
G
3 ⴰ
F
3 ⴰ
D
1 ⴰ
S
3 ⴰ
P
3 ⴰ
S
3 ⴰ
G
3 ⴰ
F
3 ⴰ
G
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
1 ⴰ
D
1 ⴰ
F
3 ⴰ
D
1
4
2
3
1
2
3
4
3
1
0
2
1
4
4
5
3
2
0
1
1
2
3
1
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
5 ⴰ
2
1
1
2
3
2
88PER
88PER
88PER
88PER
88PER
88PER
F
F
5
F
5
F
5
F
4
5
3
1
2
88PER
88PER
88PER
88PER
88PER
1
0
88PER
5
S
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
5
S
gJ
Spectral lines of Xe III
Observed
vacuum
wavelength
共Å兲
490.579
493.092
496.260
497.457
498.378
499.923
503.802
507.960
508.625
509.519
510.252
516.578
520.194
521.315
523.644
524.258
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
203 841.
202 802.
201 507.
201 022.
200 651.
200 031.
198 491.
196 866.
196 609.
196 264.
195 982.
193 582.
192 236.
191 823.
190 969.
190 746.
共⫺2兲
共0兲
共2兲
共⫺2兲
共2兲
共0兲
共⫺1兲
共⫺2兲
共2兲
共1兲
共1兲
共⫺2兲
共1兲
共0兲
共⫺1兲
共2兲
Term
J
Uncertainty of
observed
wavelength
共Å兲
1 ⴰ
3
1
2
1
3
3
2
1
3
3
2
2
1
0
1
2
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
Classification
Configuration
2
4
5s 5p
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
Term
3
P
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
J
2
2
2
1
2
2
2
2
2
2
2
1
1
1
0
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
F
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
F
3 ⴰ
G
3 ⴰ
F
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
S
1 ⴰ
D
1 ⴰ
Source
of
line
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
824
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
528.235
529.826
529.955
533.910
534.537
535.476
536.524
536.844
537.106
537.287
538.490
540.190
544.108
547.790
548.021
548.021
548.444
549.447
559.030
559.256
560.355
565.620
569.292
570.365
574.738
590.707
611.511
627.403
629.216
633.089
639.419
646.667
650.479
657.831
660.133
661.125
662.516
664.878
668.476
670.550
673.798
673.991
676.602
679.022
682.563
682.926
685.599
686.792
688.044
688.239
690.400
691.036
693.971
697.584
698.550
699.069
702.795
703.906
705.095
705.777
710.575
710.680
711.190
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
189 310.
188 741.
188 695.
187 297.
187 078.
186 750.
186 385.
186 274.
186 183.
186 120.
185 704.
185 120.
183 787.
182 552.
182 475.
182 475.
182 334.
182 001.
178 881.
178 809.
178 458.
176 797.
175 657.
175 326.
173 992.
169 289.
163 529.
159 387.
158 928.
157 956.
156 392.
154 639.
153 733.
152 015.
151 485.
151 257.
150 940.
150 404.
149 594.
149 131.
148 412.
148 370.
147 797.
147 271.
146 507.
146 429.
145 858.
145 604.
145 340.
145 298.
144 844.
144 710.
144 098.
143 352.
143 154.
143 047.
142 289.
142 064.
141 825.
141 688.
140 731.
140 710.
140 609.
共1兲
共⫺1兲
共2兲
共⫺1兲a
共⫺2兲
共4兲
共5兲
共3兲
共⫺1兲
共0兲
共1兲
共4兲
共5兲
共0兲
共⫺1兲*
共⫺1兲*
共4兲
共⫺1兲
共0兲
共0兲
共5兲
共3兲
共1兲
共5兲
共3兲
共1兲
共0兲
1
7
共1兲
8
10
12
0
1
1
2
8
1
共1兲
7
9
9
6
12
13
10
共5兲
10
1
12
8
10
7
12
5
10
3
12
2
4
4
共4兲
Term
J
Uncertainty of
observed
wavelength
共Å兲
3 ⴰ
1
1
2
0
1
3
3
2
2
1
1
2
1
1
2
3
2
1
2
1
1
1
1
2
1
3
1
1
2
1
3
1
1
2
1
1
0
2
1
2
3
2
1
1
1
1
3
1
3
2
1
2
2
1
3
2
1
2
2
1
1
0
2
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
Classification
Configuration
2
4
5s 5p
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
P
P
3
P
3
P
3
P
1
D
3
P
1
D
3
P
3
P
1
D
3
P
3
P
3
P
3
P
3
P
3
P
1
D
1
D
1
D
3
P
3
P
3
P
3
P
3
P
1
D
3
P
3
P
3
P
1
D
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
1
D
1
D
3
P
3
P
3
P
3
P
1
D
3
P
3
P
3
P
3
P
1
D
3
P
1
D
3
P
3
P
3
P
3
P
3
J
1
0
1
1
1
2
2
2
1
1
2
2
2
2
2
2
2
2
2
2
0
1
0
1
1
2
2
2
2
2
2
2
1
1
2
0
1
2
1
1
2
2
2
0
0
2
2
1
2
2
1
2
1
0
2
2
2
2
2
1
2
1
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
S
Dⴰ
3 ⴰ
P
1 ⴰ
S
3 ⴰ
D
1 ⴰ
F
3 ⴰ
D
1 ⴰ
D
3 ⴰ
F
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
S
5 ⴰ
D
5 ⴰ
S
5 ⴰ
D
5 ⴰ
D
3 ⴰ
S
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
S
3 ⴰ
D
3 ⴰ
S
3 ⴰ
D
1 ⴰ
P
1 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
1 ⴰ
P
1 ⴰ
D
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
1 ⴰ
F
3 ⴰ
P
3 ⴰ
S
3 ⴰ
D
3 ⴰ
P
1 ⴰ
P
1 ⴰ
F
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
1 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3
Source
of
line
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
SPECTRAL LINES OF XENON
825
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
715.986
717.911
719.694
721.199
721.630
723.055
723.873
724.623
727.042
731.023
733.314
737.977
742.570
744.142
750.160
750.451
754.144
756.031
761.532
761.790
763.729
765.120
765.442
769.140
779.124
779.124
779.782
780.027
784.785
790.056
792.896
793.282
793.968
796.067
799.333
800.228
800.835
801.978
808.860
810.110
811.138
820.166
822.640
823.202
824.878
826.132
838.244
838.441
840.151
850.563
851.152
852.947
861.064
863.385
870.342
878.789
889.284
891.835
894.003
895.401
896.014
898.870
901.745
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
139 668.
139 293.
138 948.
138 658.
138 575.
138 302.
138 146.
138 003.
137 544.
136 795.
136 367.
135 506.
134 667.
134 383.
133 305.
133 253.
132 601.
132 270.
131 314.
131 270.
130 936.
130 698.
130 643.
130 015.
128 349.
128 349.
128 241.
128 201.
127 423.
126 573.
126 120.
126 059.
125 950.
125 618.
125 104.
124 964.
124 870.
124 692.
123 631.
123 440.
123 284.
121 927.
121 560.
121 477.
121 230.
121 046.
119 297.
119 269.
119 026.
117 569.
117 488.
117 241.
116 135.
115 823.
114 897.
113 793.
112 450.
112 128.
111 856.
111 682.
111 605.
111 251.
110 896.
共2兲
2
12
13
共2d兲
共⫺1兲
共5兲
共1兲
12
5
12
7
13
2
4
5
共6兲
6
1
共5兲
9
共7兲
2
8
13*
13*
共4兲
8
共1兲
4
12
0
9
11
11
共0兲
2
11
共2兲
10
共2兲
共4兲
8
15
12
共3兲
共1兲
0
11
3
2
13
6
1
2
10
13
11
13
6
13
7
13
Term
J
Uncertainty of
observed
wavelength
共Å兲
3 ⴰ
1
3
1
3
2
1
1
1
1
2
2
2
2
1
2
2
1
2
3
2
1
1
0
1
1
3
3
2
1
2
3
3
2
1
1
2
2
2
1
1
1
1
3
2
3
1
1
2
1
2
1
2
1
1
2
1
1
1
2
2
3
3
1
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
Classification
Configuration
2
4
5s 5p
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
Term
3
P
D
1
S
3
P
3
P
1
D
3
P
3
P
1
D
1
D
3
P
3
P
3
P
1
D
1
D
3
P
3
P
3
P
1
D
1
D
3
P
1
D
3
P
3
P
3
P
3
P
1
D
1
D
1
S
3
P
3
P
1
D
1
D
3
P
3
P
1
D
3
P
3
P
1
D
3
P
1
S
3
P
1
D
3
P
3
P
1
D
1
S
1
D
3
P
1
D
3
P
3
P
1
D
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
1
D
3
P
1
J
0
2
0
2
1
2
2
1
2
2
2
1
2
2
2
1
0
1
2
2
1
2
1
0
1
2
2
2
0
1
2
2
2
2
0
2
1
2
2
1
0
2
2
2
2
2
0
2
2
2
0
2
2
1
1
0
2
1
2
1
2
2
0
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
S
Dⴰ
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
S
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
S
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
G
3 ⴰ
F
3 ⴰ
F
1 ⴰ
P
1 ⴰ
D
3 ⴰ
F
3 ⴰ
D
1 ⴰ
D
3 ⴰ
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
D
5 ⴰ
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
S
3 ⴰ
F
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
5 ⴰ
D
5 ⴰ
S
5 ⴰ
D
3 ⴰ
G
1 ⴰ
P
3
Source
of
line
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
826
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
915.487
917.258
930.702
953.983
958.591
960.325
965.548
971.818
974.133
979.980
981.097
1002.087
1014.825
1016.188
1017.682
1047.799
1048.755
1055.326
1058.136
1060.529
1066.393
1077.844
1088.954
1092.168
1109.257
1120.11
1124.428
1127.018
1130.348
1131.838
1135.613
1156.475
1158.329
1159.34
1159.34
1160.992
1162.73
1163.061
1166.228
1166.467
1166.789
1170.812
1170.988
1173.146
1173.370
1173.857
1174.243
1177.617
1178.630
1179.186
1182.729
1185.767
1186.249
1188.853
1192.13
1195.107
1198.683
1200.033
1202.593
1205.929
1227.943
1228.991
1232.070
Observed
wave
number
共cm⫺1兲
109 231.
109 021.
107 446.
104 824.
104 320.
104 131.
103 568.
102 900.
102 655.
102 043.
101 927.
99 791.7
98 539.2
98 407.0
98 262.5
95 438.2
95 351.2
94 757.4
94 505.8
94 292.6
93 774.1
92 777.8
91 831.2
91 561.0
90 150.4
89 276.9
88 934.1
88 729.7
88 468.3
88 351.9
88 058.2
86 469.7
86 331.3
86 256.0
86 256.0
86 133.2
86 004.5
85 980.0
85 746.5
85 729.0
85 705.3
85 410.8
85 398.0
85 240.9
85 224.6
85 189.3
85 161.2
84 917.3
84 844.3
84 804.3
84 550.2
84 333.6
84 299.3
84 114.7
83 883.5
83 674.5
83 424.9
83 331.0
83 153.7
82 923.6
81 437.0
81 367.6
81 164.2
Intensity
and
comment
10
1
2
11
10
共1兲
10
15
12
共1兲
12
6
12
2
13
15
11
11
9
1
18
1
20
10
10
1
7
2
12
0
7
11
10
0*
0*
2
2
1
0.5
8
9
2
2
9
0.5
7
2
1
8
4
1
2
1
11
1
2
11
4
2
12
2
0.5
12u
Term
J
Uncertainty of
observed
wavelength
共Å兲
1 ⴰ
1
3
2
1
1
3
1
0
1
1
1
2
0
0
2
1
1
2
3
2
1
3
0
2
2
1
0
2
2
3
2
1
3
2
2
1
2
3
2
3
4
2
2
0
1
5
1
1
2
2
3
2
3
3
3
4
2
2
3
1
2
1
2
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.01
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
Classification
Configuration
2
4
5s 5p
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s5p 5
5s 2 5p 4
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s 2 5p 4
5s5p 5
5s 2 5p 4
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s5p 5
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 4
5s5p 5
5s5p 5
5s 2 5p 4
5s5p 5
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 4
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 4
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
P
D
3
P
1
D
3
P
1
D
3
P
3
P
3
P
1
S
1
D
3 ⴰ
P
3
P
5 ⴰ
D
3
P
3
P
1
D
1
D
1
D
3 ⴰ
P
3
P
5 ⴰ
D
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3
P
3 ⴰ
P
3 ⴰ
P
1
D
3 ⴰ
P
3 ⴰ
P
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
3 ⴰ
S
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
1 ⴰ
P
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
1
S
3 ⴰ
D
3 ⴰ
P
1
D
1
J
1
2
1
2
0
2
2
1
1
0
2
1
1
1
2
0
2
2
2
1
1
3
1
2
2
0
1
2
1
2
2
2
2
1
3
1
2
3
2
2
3
1
2
1
1
4
1
0
1
1
3
1
2
2
4
3
1
2
3
0
1
0
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s5p 5
5p 6
5s5p 5
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )4 f
5p 6
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5p 6
5s 2 5p 3 ( 2 Dⴰ )4 f
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5p 6
2
5s 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s5p 5
P
F
3 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
3 ⴰ
D
1 ⴰ
P
3
D
3 ⴰ
P
1
S
3 ⴰ
P
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5
F
3 ⴰ
P
3
D
1
S
1
D
3
P
5
F
1
S
3
D
3 ⴰ
P
3
F
3
P
3 ⴰ
P
3
D
1
D
5
F
3
P
5
F
5
F
1
D
5
F
5
F
5
F
3
F
1
S
3
D
5
F
5
F
5
F
3
P
3
F
3
F
3
D
3
F
3
D
3
F
1
G
3
D
3
F
3
D
1 ⴰ
P
3
D
3
P
3 ⴰ
P
3 ⴰ
Source
of
line
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
SPECTRAL LINES OF XENON
827
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
1237.316
1238.955
1242.875
1244.235
1247.610
1249.319
1251.484
1253.650
1267.171
1269.293
1272.819
1277.742
1278.311
1281.633
1292.427
1294.477
1294.672
1299.234
1303.385
1305.475
1305.721
1306.260
1306.260
1309.656
1309.818
1309.881
1314.088
1314.390
1315.20
1316.442
1316.873
1325.014
1327.475
1330.927
1333.145
1333.145
1337.652
1338.153
1341.518
1342.534
1342.928
1344.320
1347.545
1350.47
1355.012
1356.358
1364.977
1366.709
1370.076
1374.809
1375.295
1377.722
1378.128
1380.055
1389.129
1391.936
1392.122
1395.91
1397.573
1399.271
1399.271
1399.271
1404.586
Observed
wave
number
共cm⫺1兲
80 820.1
80 713.2
80 458.6
80 370.7
80 153.3
80 043.6
79 905.1
79 767.1
78 915.9
78 784.0
78 565.8
78 263.1
78 228.2
78 025.5
77 373.8
77 251.3
77 239.6
76 968.4
76 723.3
76 600.5
76 586.0
76 554.4
76 554.4
76 355.9
76 346.5
76 342.8
76 098.4
76 080.9
76 034.1
75 962.3
75 937.5
75 470.9
75 331.0
75 135.6
75 010.6
75 010.6
74 757.9
74 729.9
74 542.4
74 486.0
74 464.2
74 387.1
74 209.0
74 048.3
73 800.1
73 726.8
73 261.3
73 168.5
72 988.7
72 737.4
72 711.7
72 583.6
72 562.2
72 460.9
71 987.6
71 842.4
71 832.8
71 637.9
71 552.6
71 465.8
71 465.8
71 465.8
71 195.4
Intensity
and
comment
2u
1
10
2
3
7
0
10
7
2
10
3
2
11
4
6
7
2
2
0
4
9*
9*
2
10
4u
10
1
0
8
2
2
1
3
11*
11*
4
5
9
11
6
5
6
0
10
11
3
8
0.5h
3
8
10
3
9
11
5
1
0
2u
4*
4*
4*
3
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
4
3
1
1
4
3
1
1
3
4
1
3
2
2
2
1
2
1
3
3
4
2
4
3
1
1
1
4
3
2
2
2
2
2
2
3
3
4
2
0
2
2
3
4
1
2
3
2
3
3
0
2
2
1
3
5
3
2
1
3
0
3
4
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 4 ⴰ
5s 5p ( S )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s5p 5
5s5p 5
2
5s 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 4
2
5s 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
Term
5
ⴰ
D
Dⴰ
3 ⴰ
P
3 ⴰ
D
5 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
1 ⴰ
P
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3 ⴰ
G
3 ⴰ
F
5 ⴰ
D
3 ⴰ
G
3 ⴰ
D
1
S
5 ⴰ
D
5 ⴰ
D
3 ⴰ
D
3 ⴰ
G
5 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
5 ⴰ
D
3 ⴰ
G
5 ⴰ
D
5 ⴰ
D
3 ⴰ
F
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
3 ⴰ
P
3 ⴰ
F
1 ⴰ
G
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
5 ⴰ
D
5 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
P
5 ⴰ
D
3 ⴰ
F
3 ⴰ
S
3 ⴰ
D
3 ⴰ
F
1 ⴰ
P
3 ⴰ
F
3 ⴰ
D
3
J
3
2
0
2
4
2
1
2
2
3
1
3
1
1
1
1
3
2
3
4
4
2
3
3
0
1
0
3
3
1
1
2
1
2
3
3
2
4
1
1
2
1
4
4
0
2
2
2
3
2
1
2
2
2
2
4
3
1
2
3
1
2
3
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5p 6
2
5s 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
Term
1
G
G
3
D
5
F
1
G
3
G
1
P
3
P
3
F
1
G
3
S
3
D
3
F
3
F
1
D
3
P
3
D
3
D
3
G
3
D
3
F
3
P
1
G
5
F
5 ⴰ
D
3
D
3
D
5
F
3
D
3
P
5
F
3
F
3
F
3
D
3
D
3
F
3
F
1
G
3
D
3
P
3
P
3
D
3
D
3
F
3
S
1
D
3
G
5
F
3
D
3
D
1
S
1
D
3
F
3
P
3
F
3
G
3
G
3
F
3
D
5
F
1
S
3
F
1
G
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
828
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
1404.681
1405.042
1407.990
1412.466
1412.846
1413.006
1414.921
1418.027
1425.200
1425.999
1425.999
1427.844
1428.810
1432.185
1433.956
1434.820
1435.045
1435.15
1436.707
1438.259
1440.089
1440.650
1441.199
1446.268
1447.487
1447.580
1450.093
1451.141
1453.408
1455.769
1457.351
1457.845
1458.806
1461.206
1462.549
1465.73
1468.178
1468.378
1471.312
1472.727
1474.781
1482.243
1484.688
1486.291
1488.474
1495.446
1497.708
1501.157
1503.997
1504.900
1508.178
1509.458
1509.530
1509.841
1511.119
1515.558
1520.619
1521.501
1524.280
1526.586
1530.558
1532.765
1533.416
Observed
wave
number
共cm⫺1兲
71 190.5
71 172.2
71 023.2
70 798.2
70 779.1
70 771.1
70 675.3
70 520.5
70 165.6
70 126.3
70 126.3
70 035.7
69 988.3
69 823.4
69 737.1
69 695.2
69 684.2
69 679.1
69 603.6
69 528.5
69 440.2
69 413.1
69 386.7
69 143.5
69 085.2
69 080.8
68 961.1
68 911.3
68 803.8
68 692.2
68 617.6
68 594.4
68 549.2
68 436.6
68 373.8
68 225.4
68 111.6
68 102.4
67 966.5
67 901.2
67 806.7
67 465.3
67 354.2
67 281.6
67 182.9
66 869.7
66 768.7
66 615.3
66 489.5
66 449.6
66 305.2
66 248.9
66 245.8
66 232.1
66 176.1
65 982.3
65 762.7
65 724.6
65 604.7
65 505.6
65 335.6
65 241.6
65 213.9
Intensity
and
comment
2
8
4
15
0.5
0.5
10
8
6
10*
10*
7
8
9
3
2
7
0b
6
1
7
2
2
8
5
8
7
3
7
1
8
6
4
5
2
3
6
1
9
7
2
9w
6
7
4
8
4
1
0
3
5
7
3
5
6
0
5
5
4
7
0
2
6
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
4
2
1
2
1
3
1
3
2
0
2
3
2
1
2
1
1
5
3
4
1
4
2
2
5
2
4
1
2
2
2
2
3
3
3
1
3
4
2
2
3
1
3
4
2
1
2
4
2
3
4
1
4
1
3
3
2
3
0
2
1
3
2
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )6s
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
2
5s 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 4
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3 ⴰ
F
Dⴰ
5 ⴰ
D
1 ⴰ
P
5 ⴰ
D
5 ⴰ
D
1 ⴰ
P
5 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
F
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
3 ⴰ
G
3 ⴰ
G
3 ⴰ
G
5 ⴰ
D
5 ⴰ
D
1 ⴰ
P
5 ⴰ
D
5 ⴰ
D
3 ⴰ
D
3 ⴰ
G
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
G
5 ⴰ
S
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
G
1
S
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
1 ⴰ
G
3 ⴰ
D
3
J
3
2
1
1
0
3
1
2
1
1
1
3
3
2
2
0
1
4
3
4
0
4
1
1
4
2
3
2
2
2
2
3
3
2
4
2
2
3
1
1
3
0
2
3
3
1
2
4
1
2
3
2
3
2
2
4
3
3
1
1
0
4
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 4 ⴰ
5s 5p ( S )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5p 6
2
5s 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
Term
5
F
P
1
P
1
D
1
P
3
D
3
P
3
D
3
F
1
S
3
D
3
F
3
F
3
P
3
F
3
P
3
S
5
F
3
G
5
F
3
S
3
H
3
P
3
F
3
H
3
P
5
F
5
F
3
P
3
D
5
F
1
D
1
F
3
D
3
F
3
P
5
F
3
F
3
D
1
D
3
F
3 ⴰ
P
3
D
3
G
3
P
3
D
1
D
3
G
3
P
3
G
1
G
1
P
1
G
1
P
1
F
3
F
3
D
3
D
3
P
3
D
3
P
3
G
3
D
3
SPECTRAL LINES OF XENON
829
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
1535.224
1535.224
1535.328
1536.32
1536.386
1536.812
1538.220
1538.863
1540.970
1546.952
1547.346
1548.008
1549.961
1551.651
1553.907
1554.426
1557.460
1558.178
1560.011
1560.437
1562.006
1562.547
1569.338
1569.753
1570.865
1572.188
1574.847
1578.154
1579.476
1584.577
1585.770
1589.351
1592.466
1596.687
1598.260
1601.817
1603.241
1604.074
1605.106
1605.322
1606.393
1610.658
1612.970
1616.083
1619.484
1621.407
1622.595
1623.748
1624.678
1626.183
1626.309
1628.148
1629.312
1630.38
1631.429
1633.255
1633.489
1634.072
1635.382
1637.572
1642.395
1642.767
1646.504
Observed
wave
number
共cm⫺1兲
65 137.1
65 137.1
65 132.7
65 090.6
65 087.8
65 069.8
65 010.2
64 983.0
64 894.2
64 643.2
64 626.8
64 599.1
64 517.8
64 447.5
64 353.9
64 332.4
64 207.1
64 177.5
64 102.1
64 084.6
64 020.2
63 998.1
63 721.1
63 704.3
63 659.2
63 605.6
63 498.2
63 365.2
63 312.1
63 108.3
63 060.8
62 918.8
62 795.7
62 629.7
62 568.0
62 429.1
62 373.7
62 341.3
62 301.2
62 292.8
62 251.3
62 086.4
61 997.4
61 878.0
61 748.1
61 674.8
61 629.7
61 585.9
61 550.7
61 493.7
61 488.9
61 419.5
61 375.6
61 335.4
61 296.0
61 227.4
61 218.7
61 196.8
61 147.8
61 066.0
60 886.7
60 872.9
60 734.7
Intensity
and
comment
3*
3*
7
3w
9
2
7
8
2
9
7
9
9
10
10
8
5
7
11
10
9
12
10
9
6
9
9
9
10
9
12
4
10
11w
11
9
10
8
10
9
2
5
6
3
8
7
8
6
5
3
1
1
6
0
10
10
7
3
11
3
3
10
2
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
3
2
2
3
2
1
2
1
4
2
4
1
1
2
3
2
4
1
1
2
2
2
2
3
1
2
3
2
1
0
3
2
2
2
2
0
4
2
2
4
2
3
2
4
4
2
3
1
2
3
4
2
3
2
3
3
1
3
3
2
2
1
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 4 ⴰ
5s 5p ( S )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
Term
5 ⴰ
S
Dⴰ
3 ⴰ
F
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
F
1 ⴰ
P
3 ⴰ
D
3 ⴰ
G
3 ⴰ
D
1 ⴰ
G
3 ⴰ
P
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
S
3 ⴰ
D
3 ⴰ
F
3 ⴰ
S
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
1 ⴰ
P
3 ⴰ
S
3 ⴰ
D
3 ⴰ
S
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
5 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
D
3 ⴰ
G
5 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
F
1 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
S
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3
J
2
2
2
3
2
1
2
1
2
4
1
4
1
1
2
2
1
3
2
1
1
2
2
3
3
1
1
3
1
1
1
2
1
1
1
2
1
3
2
3
4
1
4
2
3
4
2
2
1
2
2
3
1
2
2
3
2
2
3
2
2
3
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5p 6
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
Term
3
F
D
1
D
3
P
1
F
3
D
3
P
1
D
3
S
1
G
5
F
5
F
3
P
1
P
3
F
3
F
1
D
3
F
3
D
3
P
3
F
3
D
3
P
1
D
1
F
5
F
3
P
3
D
5
F
3
S
1
S
5
F
3
P
3
D
3
F
3
F
3
P
3
F
3
D
3
P
1
G
1
D
1
F
3
F
1
G
3
F
3
P
3
G
1
P
5
F
3
F
3
F
3
D
3
D
3
D
3
D
5
F
1
P
3
D
3
G
3
F
3
D
3
D
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
830
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
1647.010
1647.338
1653.039
1656.069
1656.612
1660.808
1661.029
1661.093
1663.390
1669.355
1672.557
1673.566
1674.633
1675.824
1678.873
1684.194
1685.823
1691.798
1693.703
1694.134
1694.820
1696.936
1699.515
1699.754
1703.820
1704.946
1705.178
1712.522
1713.867
1716.290
1717.005
1717.515
1722.358
1724.776
1724.983
1727.429
1728.420
1733.536
1734.368
1735.371
1750.609
1752.022
1752.318
1752.626
1757.396
1759.622
1760.178
1767.089
1770.099
1770.174
1770.919
1771.778
1774.033
1775.174
1777.551
1777.910
1778.425
1778.783
1780.067
1784.661
1785.311
1786.678
1789.258
Observed
wave
number
共cm⫺1兲
60 716.1
60 704.0
60 494.6
60 384.0
60 364.2
60 211.7
60 203.6
60 201.3
60 118.2
59 903.4
59 788.7
59 752.6
59 714.6
59 672.1
59 563.8
59 375.6
59 318.2
59 108.7
59 042.2
59 027.2
59 003.3
58 929.7
58 840.3
58 832.0
58 691.6
58 652.9
58 644.9
58 393.4
58 347.6
58 265.2
58 240.9
58 223.7
58 059.9
57 978.5
57 971.6
57 889.5
57 856.3
57 685.6
57 657.9
57 624.6
57 123.0
57 076.9
57 067.3
57 057.2
56 902.4
56 830.4
56 812.4
56 590.2
56 494.0
56 491.6
56 467.9
56 440.5
56 368.7
56 332.5
56 257.2
56 245.8
56 229.5
56 218.2
56 177.7
56 033.1
56 012.6
55 969.8
55 889.1
Intensity
and
comment
8
10
10
3
10
4
1
6
9
7
9
9
11
11
6
2
9
5
9
7
7
4
10
9
8
1
12
10
3
5
5
12
8
2
7
9
5
3
7
9
5
4
4
11
10
0
6
10
10
10
0
5
9
9
6
11
2
9
3
8
2
8
7
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
3
2
2
1
2
2
2
3
3
1
4
2
4
0
2
2
3
0
1
2
1
3
2
4
3
3
4
3
5
4
2
3
2
2
1
3
4
4
2
3
3
4
2
3
3
2
2
4
1
3
4
5
3
3
1
0
1
2
3
3
3
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 4 ⴰ
5s 5p ( S )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s5p 5
2
5s 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
2
5s 5p 3 ( 2 Dⴰ )5d
5s5p 5
2
5s 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
ⴰ
D
S
3 ⴰ
F
5 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
5 ⴰ
S
3 ⴰ
F
1 ⴰ
D
3 ⴰ
P
1 ⴰ
G
3 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
3 ⴰ
D
3 ⴰ
F
1 ⴰ
P
1 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
G
3 ⴰ
P
3 ⴰ
D
5 ⴰ
D
5 ⴰ
D
1 ⴰ
F
3 ⴰ
G
3 ⴰ
G
3 ⴰ
F
3 ⴰ
F
5 ⴰ
D
3 ⴰ
G
3 ⴰ
F
3 ⴰ
S
3 ⴰ
F
3 ⴰ
D
3 ⴰ
G
3 ⴰ
P
3 ⴰ
D
1 ⴰ
G
3 ⴰ
G
3 ⴰ
F
5 ⴰ
S
3 ⴰ
G
3 ⴰ
D
3 ⴰ
D
1 ⴰ
F
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
G
3 ⴰ
F
3 ⴰ
G
5 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
1 ⴰ
F
3 ⴰ
D
3 ⴰ
J
2
1
3
3
3
1
3
3
2
2
2
0
4
1
3
1
2
1
3
1
1
1
0
4
1
3
3
2
3
3
4
4
2
4
3
3
1
2
3
4
1
3
4
3
2
2
4
1
2
3
1
4
4
4
3
3
2
1
0
1
2
3
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2 ⴰ
5s 5p ( P )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5p 6
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5p 6
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
Term
3
D
P
3
F
1
D
3
F
3
S
3
D
3
P
3
F
3
D
3
F
3
P
1
G
3
F
1
G
1
S
1
D
3
F
3
D
3
P
3
P
3
D
5
F
3
F
3
D
5
F
3
F
3
F
3
F
3
F
1
H
3
F
3
D
3
F
3
P
1
D
1
P
3
D
3
G
3
F
3
F
3
G
1
F
3
F
3
F
3
G
3
D
1
D
3
F
1
G
3
P
3
F
1
G
3
G
3
D
3
D
3
P
1
S
1
P
3
D
3
D
3
D
3
G
3
SPECTRAL LINES OF XENON
831
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
1790.544
1799.691
1799.769
1799.900
1803.073
1804.117
1805.316
1807.746
1810.520
1811.263
1812.301
1814.503
1815.085
1817.397
1819.857
1821.334
1823.391
1825.867
1826.490
1827.367
1827.883
1830.939
1831.680
1833.588
1834.255
1835.532
1835.811
1837.223
1837.300
1848.695
1848.989
1850.903
1852.583
1853.884
1854.375
1855.196
1856.569
1859.877
1860.181
1860.631
1865.157
1866.547
1869.447
1870.665
1872.254
1874.915
1875.772
1875.878
1878.049
1882.957
1883.687
1886.426
1888.083
1888.374
1892.723
1895.099
1896.921
1899.156
1899.216
1900.693
1901.779
1904.599
1904.599
Observed
wave
number
共cm⫺1兲
55 848.9
55 565.1
55 562.7
55 558.6
55 460.9
55 428.8
55 392.0
55 317.5
55 232.8
55 210.1
55 178.5
55 111.5
55 093.8
55 023.8
54 949.4
54 904.8
54 842.9
54 768.5
54 749.8
54 723.5
54 708.1
54 616.8
54 594.7
54 537.9
54 518.0
54 480.1
54 471.8
54 430.0
54 427.7
54 092.2
54 083.6
54 027.7
53 978.7
53 940.8
53 926.5
53 902.7
53 862.8
53 767.0
53 758.2
53 745.2
53 614.8
53 574.9
53 491.8
53 456.9
53 411.6
53 335.8
53 311.4
53 308.4
53 246.7
53 108.0
53 087.4
53 010.3
52 963.8
52 955.6
52 833.9
52 767.7
52 717.0
52 655.0
52 653.3
52 612.4
52 582.3
52 504.5
52 504.5
Intensity
and
comment
6
10
7
9
8
10
4
7
11
11
3
10
11
9
11
10
11
9
12
9
9
9
1
1
9
9
15
4
5
9
8
6
9
10
11
9
2
9
8
4
10
10
0
9
9
10
10
8
1
1
3
11
8
7
0
11
10
7
9
4
0
6*
6*
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
5
4
2
1
2
1
1
1
4
2
2
3
3
2
4
3
3
3
4
1
2
2
3
3
3
1
5
2
3
3
4
3
3
5
6
4
5
4
2
2
3
5
0
2
3
4
5
1
4
3
2
3
2
2
3
4
4
1
3
3
3
1
2
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
Term
3 ⴰ
F
F
3 ⴰ
S
3 ⴰ
D
5 ⴰ
D
3 ⴰ
P
5 ⴰ
D
5 ⴰ
D
3 ⴰ
F
5 ⴰ
D
3 ⴰ
D
3 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
1 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
1 ⴰ
P
5 ⴰ
D
3 ⴰ
G
1 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
G
3 ⴰ
P
3 ⴰ
F
3 ⴰ
G
3 ⴰ
G
3 ⴰ
G
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
G
5 ⴰ
D
1 ⴰ
D
1 ⴰ
D
3 ⴰ
G
1 ⴰ
G
3 ⴰ
D
3 ⴰ
G
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
5 ⴰ
D
3 ⴰ
F
3 ⴰ
D
5 ⴰ
D
3 ⴰ
F
3 ⴰ
F
5 ⴰ
D
3
P
3 ⴰ
D
3 ⴰ
J
4
3
1
1
3
1
0
2
4
2
1
2
3
2
3
2
2
3
3
1
1
1
4
2
2
0
4
1
4
2
4
3
2
4
5
4
5
3
1
2
2
4
1
2
2
3
4
1
5
2
1
2
1
2
3
3
3
2
2
3
2
1
3
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
Term
1
H
H
3
D
3
D
3
P
3
D
3
P
5
F
3
F
3
P
3
P
1
F
3
D
5
F
3
F
3
G
3
D
5
F
5
F
5
F
3
F
3
P
3
D
5
F
5
F
5
F
5
F
5
F
3
D
3
F
5
F
3
D
3
D
3
G
3
H
3
H
1
H
1
G
3
D
3
P
3
G
3
H
3
P
1
D
1
F
3
H
1
H
3
D
3
F
3
F
3
P
3
F
1
D
3
D
1
F
3
G
3
F
1
P
3
G
3
G
1
F
1 ⴰ
P
3
F
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
832
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
1907.038
1910.626
1911.131
1912.564
1915.595
1916.211
1921.644
1924.197
1924.757
1926.291
1927.622
1929.158
1930.083
1935.038
1941.329
1942.913
1945.419
1956.154
1956.759
1966.345
1966.733
1967.905
1969.474
1970.059
1970.899
1973.829
1974.445
1978.705
1979.266
1980.606
1983.985
1985.405
1989.377
1990.182
1997.330
1997.497
52 437.3
52 338.9
52 325.0
52 285.8
52 203.1
52 186.3
52 038.8
51 969.7
51 954.6
51 913.2
51 877.4
51 836.1
51 811.2
51 678.6
51 511.1
51 469.1
51 402.8
51 120.7
51 104.9
50 855.8
50 845.7
50 815.5
50 775.0
50 759.9
50 738.3
50 663.0
50 647.1
50 538.1
50 523.8
50 489.6
50 403.6
50 367.6
50 267.0
50 246.7
50 066.8
50 062.7
0
1
0
2
2
5
5
8
4
2
5
6
11
6
4
12
1
2
7
7
1
6
4
7
1
4
1
8
2
2
5
10
1
7
6
0
Observed
air
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
2001.085
2006.317
2013.859
2016.174
2017.911
2018.714
2020.914
2021.304
2026.062
2029.023
2029.216
2031.996
2037.670
2038.394
2039.314
2041.276
2043.286
2044.430
2046.555
2051.875
2052.166
49 956.7
49 826.5
49 639.9
49 582.9
49 540.2
49 520.5
49 466.6
49 457.1
49 340.9
49 268.9
49 264.3
49 196.9
49 059.9
49 042.5
49 020.4
48 973.2
48 925.1
48 897.7
48 846.9
48 720.3
48 713.4
1
4
8
2
2
5
6
2
10
8
9
8
7
6
7
1
2
1
8
7
5
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
0
2
2
3
3
3
1
4
5
2
2
2
2
2
4
0
5
3
4
3
1
3
2
2
3
1
1
4
3
3
2
4
2
3
2
2
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
2
2
3
3
1
2
2
2
4
1
5
1
2
3
4
5
4
2
2
4
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 4 ⴰ
5s 5p ( S )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
Term
3 ⴰ
S
S
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
3 ⴰ
G
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
1 ⴰ
P
1 ⴰ
G
3 ⴰ
D
3 ⴰ
G
3 ⴰ
F
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
G
3 ⴰ
G
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
S
3 ⴰ
J
1
1
2
2
4
3
2
3
5
3
1
3
1
1
4
1
4
3
4
2
2
3
1
3
2
0
1
3
4
2
2
3
1
2
1
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2 ⴰ
5s 5p ( P )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5p 6
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5 f
Term
3
P
D
3
D
5
F
3
D
3
G
3
P
5
F
3
G
3
F
3
D
3
D
3
F
1
D
3
H
1
S
3
G
1
F
3
G
3
F
3
P
3
F
1
D
1
D
3
F
3
D
3
D
3
G
3
G
3
D
3
D
3
F
3
P
3
F
1
D
5
F
3
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
ⴰ
G
Dⴰ
3 ⴰ
D
3 ⴰ
P
1 ⴰ
F
1 ⴰ
D
3 ⴰ
D
3 ⴰ
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
G
1 ⴰ
P
3 ⴰ
F
3 ⴰ
D
1 ⴰ
G
3 ⴰ
F
1 ⴰ
F
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3
J
3
2
2
2
3
2
2
1
2
3
0
5
1
2
3
4
4
3
1
1
4
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
Term
3
G
P
5
F
3
G
3
G
1
P
3
D
3
F
1
D
1
G
3
P
3
H
3
P
3
F
3
F
3
H
5
F
5
F
3
D
3
D
3
G
3
SPECTRAL LINES OF XENON
833
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
2052.729
2055.034
2060.385
2060.702
2067.175
2067.384
2072.247
2072.866
2075.090
2077.610
2079.995
2083.088
2084.461
2084.598
2090.225
2091.996
2093.862
2095.126
2095.350
2096.570
2099.545
2106.534
2114.762
2118.036
2122.205
2123.163
2128.473
2130.809
2138.432
2139.236
2139.375
2139.375
2142.129
2144.189
2147.683
2156.896
2158.96
2159.33
2160.935
2165.526
2165.526
2172.779
2179.684
2185.017
2189.828
2192.428
2192.78
2194.292
2197.801
2198.583
2199.287
2199.514
2202.695
2203.682
2204.20
2204.333
2205.51
2210.420
2213.799
2214.382
2214.382
2220.544
2223.640
Observed
wave
number
共cm⫺1兲
48 700.0
48 645.4
48 519.1
48 511.6
48 359.8
48 354.9
48 241.4
48 227.0
48 175.3
48 116.9
48 061.7
47 990.4
47 958.8
47 955.6
47 826.5
47 786.0
47 743.5
47 714.7
47 709.6
47 681.8
47 614.3
47 456.3
47 271.7
47 198.6
47 105.9
47 084.7
46 967.2
46 915.7
46 748.5
46 730.9
46 727.9
46 727.9
46 667.8
46 623.0
46 547.2
46 348.4
46 304.0
46 296.1
46 261.7
46 163.7
46 163.7
46 009.6
45 863.8
45 751.9
45 651.4
45 597.3
45 590.0
45 558.6
45 485.8
45 469.6
45 455.1
45 450.4
45 384.8
45 364.4
45 353.8
45 351.0
45 326.8
45 226.2
45 157.1
45 145.3
45 145.3
45 020.0
44 957.3
Intensity
and
comment
8
6
0
3
9
7
0
7
7
0
5
6
2
9
7
9
5
6
3
9
0
1
7
9
2
4
1
3
9
6
7*
7*
2
0
7
8
1
0u
7
3*
3*
9
7
3
12w
1
0
1
10
1
6
6
7
0
2
5
2
9
0
9*
9*
2
5
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
5
1
4
2
1
2
3
2
2
1
3
2
3
4
3
3
3
3
2
2
2
1
3
1
4
2
0
4
3
1
4
2
3
1
2
1
1
2
4
1
3
2
3
2
4
2
3
1
3
3
1
2
2
3
2
4
2
1
3
2
2
2
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
5
5s5p
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
Term
3 ⴰ
P
Gⴰ
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
5 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
S
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
P
1 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
F
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
G
3 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3
P
3 ⴰ
P
3 ⴰ
G
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
G
3 ⴰ
P
3 ⴰ
F
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
G
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1
J
2
4
2
3
1
0
1
2
1
1
1
3
1
3
3
2
3
2
2
1
3
2
2
2
2
3
3
1
3
2
2
5
3
3
1
2
0
0
1
4
1
2
1
2
3
3
1
2
1
3
2
0
3
2
2
3
3
2
1
3
1
2
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 4 ⴰ
5s 5p ( S )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
Term
5
P
H
5
P
1
G
3
F
3
D
3
F
3
D
3
P
3
F
3
D
3
D
3
D
3
F
3
F
3
F
3
F
1
F
3
D
3
P
3
F
5
F
1
P
1
F
1
P
1
G
3
D
3
P
3
F
1
F
3
D
3
G
1
D
1
F
3
D
3
P
3
D
3 ⴰ
S
3
D
3
F
3
P
3
D
1
D
3
F
5
F
3
F
3
P
3
F
1
P
3
D
3
D
1
P
3
F
3
P
3
F
1
D
3
F
3
F
1
P
5
F
3
P
3
D
5
F
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
834
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
2225.071
2227.588
2230.419
2230.419
2231.673
2235.349
2243.970
2245.280
2247.335
2247.556
2249.630
2258.847
2268.923
2271.055
2271.382
2272.609
2273.488
2273.709
2274.96
2281.13
2283.828
2286.634
2288.009
2290.834
2298.540
2300.353
2300.716
2300.876
2303.735
2303.735
2305.502
2305.502
2309.922
2312.276
2313.392
2316.583
2320.992
2323.455
2326.369
2333.555
2338.884
2339.398
2350.563
2353.95
2353.95
2354.456
2359.159
2365.416
2366.115
2369.595
2378.714
2379.783
2382.087
2383.247
2385.673
2385.902
2388.573
2392.376
2394.083
2397.566
2403.792
2406.00
2406.229
Observed
wave
number
共cm⫺1兲
44 928.4
44 877.6
44 820.7
44 820.7
44 795.5
44 721.9
44 550.1
44 524.1
44 483.4
44 479.0
44 438.0
44 256.7
44 060.2
44 018.8
44 012.5
43 988.7
43 971.7
43 967.4
43 943.24
43 824.39
43 772.6
43 718.9
43 692.6
43 638.8
43 492.5
43 458.2
43 451.3
43 448.3
43 394.4
43 394.4
43 361.2
43 361.2
43 278.2
43 234.1
43 213.3
43 153.8
43 071.8
43 026.1
42 972.3
42 839.9
42 742.3
42 732.9
42 530.0
42 468.79
42 468.79
42 459.7
42 375.0
42 262.9
42 250.5
42 188.4
42 026.7
42 007.8
41 967.2
41 946.8
41 904.1
41 900.1
41 853.2
41 786.7
41 756.9
41 696.3
41 588.3
41 550.12
41 546.2
Intensity
and
comment
9
3
6*
6*
7
2
11
8
5
6
0
5
4
8
11w
2
3
1
3u
2
5
7
2
12b
1
9
9
9
9*
9*
5*
5*
7
11
12
10
5
3
0
7
9
1
8
0*
0*
11
0
14
12
18b
0
3
11
13
11
8b
11
4b
10
8
9
0
1
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
1
0
1
1
2
3
2
2
3
3
2
3
0
4
1
2
2
2
1
4
3
3
3
1
3
2
2
1
2
1
2
2
2
1
3
2
4
1
1
1
1
3
1
3
2
2
3
4
2
2
3
1
4
1
3
2
4
1
1
2
2
3
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
ⴰ
D
P
3 ⴰ
D
3
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
F
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3
F
3 ⴰ
F
3 ⴰ
D
3 ⴰ
P
1 ⴰ
D
3 ⴰ
P
3
P
3 ⴰ
D
3 ⴰ
S
3 ⴰ
G
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
S
3 ⴰ
F
3 ⴰ
P
1 ⴰ
F
3 ⴰ
S
3 ⴰ
G
3 ⴰ
D
3 ⴰ
G
3 ⴰ
D
3 ⴰ
P
1 ⴰ
D
1 ⴰ
D
1 ⴰ
D
3
J
2
0
1
2
1
1
2
2
3
2
3
2
2
1
3
1
1
2
2
2
4
3
2
2
2
3
2
1
2
1
2
2
1
1
1
2
3
3
1
2
1
1
2
1
4
1
2
2
3
2
1
2
0
3
1
3
1
5
2
0
2
2
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
Term
3
D
Dⴰ
3
P
3 ⴰ
D
3
P
3
D
3
F
1
D
1
D
1
F
1
F
3
P
3
G
3
P
1
G
3
S
3
D
5
F
3
D
1
P
3
F
3
D
5
F
3
G
3
D
3
F
3
F
3
F
3
P
5
P
3
P
3
F
1
D
3
D
5
P
1 ⴰ
F
3
P
3
H
5
F
1
P
1
P
3 ⴰ
D
3
D
3
P
3
F
5
F
3
P
3
F
3
F
5
F
1
D
3
D
3
P
1
G
3
P
3
F
3
F
3
F
3
D
3
S
3
D
3
D
3
D
3
SPECTRAL LINES OF XENON
835
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
2412.505
2414.104
2414.230
2414.544
2416.72
2416.72
2418.744
2419.740
2422.139
2422.767
2423.918
2436.491
2439.516
2441.523
2446.503
2447.083
2452.644
2463.061
2463.557
2464.555
2468.393
2471.319
2472.377
2477.062
2479.130
2479.876
2483.464
2485.006
2486.727
2501.037
2504.907
2509.74
2510.52
2511.288
2513.337
2514.09
2515.117
2521.428
2523.967
2533.318
2536.868
2538.918
2541.028
2541.88
2544.10
2550.55
2550.55
2568.81
2568.81
2570.26
2572.33
2572.33
2574.61
2578.37
2578.62
2590.42
2591.24
2591.69
2594.53
2595.03
2600.12
2607.50
2608.33
Observed
wave
number
共cm⫺1兲
41 438.1
41 410.6
41 408.5
41 403.1
41 365.83
41 365.83
41 331.2
41 314.2
41 273.3
41 262.6
41 243.0
41 030.2
40 979.3
40 945.6
40 862.3
40 852.6
40 760.0
40 587.6
40 579.4
40 563.0
40 499.9
40 452.0
40 434.7
40 358.2
40 324.6
40 312.4
40 254.2
40 229.2
40 201.4
39 971.4
39 909.6
39 832.8
39 820.4
39 808.2
39 775.8
39 763.9
39 747.6
39 648.1
39 608.3
39 462.1
39 406.8
39 375.0
39 342.3
39 329.1
39 294.8
39 195.5
39 195.5
38 916.9
38 916.9
38 894.9
38 863.6
38 863.6
38 829.2
38 772.6
38 768.8
38 592.2
38 580.0
38 573.3
38 531.1
38 523.7
38 448.3
38 339.5
38 327.26
Intensity
and
comment
6
2
4
9
3*
3*
8
7
14b
9
3
12
6w
11
8
10
11
10
10
2
7b
10
7
0
7
8
6
7
9
12
11
4
3
1
1
0h
6
5
7
7
7
1
1
3
2
3*
3*
9*
9*
5
7*
7*
2
13
9
12
8
10
7
7a
15a
7b
0
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
2
3
1
3
3
1
3
3
2
3
2
2
2
2
2
2
1
3
1
2
2
4
0
0
3
3
4
2
1
0
2
1
1
1
3
3
3
2
2
3
3
3
3
3
1
2
2
3
1
2
1
1
4
2
3
2
4
2
2
1
2
2
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
Term
3
ⴰ
D
F
3 ⴰ
P
3 ⴰ
P
1 ⴰ
F
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
S
3 ⴰ
F
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
5 ⴰ
D
3 ⴰ
F
5 ⴰ
D
3 ⴰ
S
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
5 ⴰ
D
1 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
F
5
P
3
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
1
F
3 ⴰ
P
3
F
1 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
S
3
F
3 ⴰ
G
3 ⴰ
S
1
P
1 ⴰ
D
1
D
3 ⴰ
G
3 ⴰ
D
3 ⴰ
G
1 ⴰ
F
3 ⴰ
G
3 ⴰ
G
3 ⴰ
S
3 ⴰ
P
5
P
3 ⴰ
P
1 ⴰ
J
3
3
2
1
3
3
2
2
3
1
4
3
3
3
1
3
3
2
3
2
1
3
3
1
1
2
3
3
2
1
1
1
2
1
2
3
2
3
1
3
3
2
2
2
2
0
1
3
4
1
1
2
2
4
1
4
3
4
3
1
0
1
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2 ⴰ
5s 5p ( P )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )4 f
Term
3
D
D
1
F
3
S
1
F
3
F
3
P
3
F
3
F
5
F
1
F
3
D
3
P
3
P
3
F
1
D
5
F
1
P
3
D
3
D
3
F
3
P
3
F
3
P
3
P
3
D
5
F
3
G
3
P
3
D
3
P
3
D
1
P
3 ⴰ
D
3 ⴰ
P
3
F
1
F
3
G
3
P
3
F
1 ⴰ
F
1
F
3 ⴰ
D
3
D
3
D
3
P
3
D
3 ⴰ
D
3
D
1
P
1 ⴰ
D
3
D
3 ⴰ
D
3
F
3
F
5
F
3
D
5
F
5
F
3
P
5
P
3 ⴰ
D
3
F
1
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
836
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
2608.90
2610.57
2611.03
2613.99
2615.40
2616.63
2616.90
2619.85
2624.52
2626.98
2634.21
2637.54
2639.15
2641.13
2658.27
2659.36
2661.00
2667.94
2669.01
2669.01
2670.25
2678.55
2678.55
2685.51
2687.03
2691.22
2691.44
2694.12
2695.65
2695.65
2696.51
2696.51
2701.50
2701.71
2702.31
2704.41
2708.45
2710.94
2711.34
2713.39
2714.05
2717.35
2718.10
2725.69
2727.20
2728.20
2736.99
2739.19
2740.78
2747.86
2754.88
2757.56
2759.19
2760.72
2761.58
2762.73
2763.01
2763.01
2765.95
2766.18
2769.17
2772.40
2774.44
Observed
wave
number
共cm⫺1兲
38 318.9
38 294.4
38 287.6
38 244.3
38 223.66
38 205.7
38 201.8
38 158.7
38 090.8
38 055.2
37 950.7
37 902.8
37 879.7
37 851.3
37 607.3
37 591.8
37 568.7
37 471.0
37 455.9
37 455.9
37 438.5
37 322.5
37 322.5
37 225.8
37 204.8
37 146.8
37 143.8
37 106.9
37 085.8
37 085.8
37 074.0
37 074.0
37 005.5
37 002.6
36 994.4
36 965.7
36 910.5
36 876.6
36 871.2
36 843.3
36 834.4
36 789.66
36 779.5
36 677.1
36 656.8
36 643.4
36 525.7
36 496.3
36 475.2
36 381.2
36 288.5
36 253.2
36 231.8
36 211.7
36 200.5
36 185.4
36 181.7
36 181.7
36 143.3
36 140.3
36 101.2
36 059.2
36 032.7
Intensity
and
comment
6
5
1
1
1
1
0
8w
4
7
13
3
9
2
9
5
7
10a
20*
20*
6
6*
6*
5
5
4
12a
5
3*
3*
15b*
15b*
5
0
2
3
12
6
0
10a
2
30
2
1wb
11a
9
14
4
16
14
13
3
11
13
15
9b
6*
6*
5
15
10
16
0
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
1
1
3
1
4
3
2
1
3
2
3
1
1
1
1
2
3
3
4
3
3
2
2
3
3
2
0
1
1
1
2
1
2
4
3
1
1
4
1
1
3
3
2
3
2
3
2
3
4
1
2
2
3
3
1
3
4
3
2
2
3
4
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
81HUM
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3 ⴰ
F
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
G
1 ⴰ
F
5
P
3 ⴰ
S
3
F
3 ⴰ
P
3 ⴰ
F
3
D
5 ⴰ
D
5 ⴰ
D
3 ⴰ
P
3 ⴰ
F
5
F
5 ⴰ
D
3
F
3
F
5
P
3 ⴰ
D
3 ⴰ
P
5 ⴰ
D
3
D
3
D
1
P
3 ⴰ
D
3
F
3 ⴰ
D
1
F
5
P
5
F
1 ⴰ
F
5
F
3
D
3 ⴰ
P
3 ⴰ
F
3
D
3 ⴰ
F
5 ⴰ
D
3
P
3
D
3 ⴰ
G
3 ⴰ
S
3 ⴰ
F
5
F
3 ⴰ
F
3 ⴰ
F
3
P
3 ⴰ
F
3
D
1
F
3 ⴰ
F
3
F
1 ⴰ
F
3 ⴰ
F
1 ⴰ
D
3 ⴰ
F
1
F
3 ⴰ
F
3 ⴰ
D
1
J
3
1
0
2
1
3
3
2
1
3
2
2
1
1
0
0
2
3
3
3
3
3
2
1
2
3
1
1
1
2
1
3
1
3
3
2
1
0
4
2
2
4
2
3
4
1
4
2
3
4
1
3
2
3
4
2
3
4
2
3
3
4
3
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
Term
1
F
P
3
D
3
F
5
F
3
F
3
F
3 ⴰ
D
1
P
3 ⴰ
D
3
P
3
F
3 ⴰ
D
3
P
3
P
3
P
3
D
1 ⴰ
F
5
P
3 ⴰ
G
3 ⴰ
D
3 ⴰ
D
1
D
3
D
5
P
1 ⴰ
F
3 ⴰ
D
3 ⴰ
P
3
D
3 ⴰ
D
3
D
3 ⴰ
D
3 ⴰ
S
1 ⴰ
D
3
F
1 ⴰ
F
3 ⴰ
D
5
F
3
F
3 ⴰ
S
3
S
5
P
1 ⴰ
F
1 ⴰ
D
1
F
3
D
3
D
1 ⴰ
D
3
F
3
F
3 ⴰ
D
3
F
3 ⴰ
P
3 ⴰ
D
5
F
3 ⴰ
D
3
D
5
F
3
G
3
D
1 ⴰ
D
3
D
1
G
1 ⴰ
SPECTRAL LINES OF XENON
837
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
2774.79
2776.96
2777.94
2779.64
2782.30
2782.69
2783.33
2784.93
2785.33
2785.80
2792.47
2794.84
2797.12
2797.12
2797.87
2800.20
2802.19
2805.09
2805.61
2806.40
2807.22
2808.46
2808.57
2809.06
2809.06
2809.06
2809.53
2810.46
2811.61
2814.46
2815.27
2815.92
2817.36
2825.99
2827.46
2832.83
2832.97
2833.12
2838.81
2844.12
2845.06
2847.67
2847.92
2850.27
2856.67
2857.81
2862.42
2863.86
2864.62
2868.45
2869.52
2871.10
2871.27
2871.69
2871.69
2872.75
2873.29
2879.36
2886.68
2886.93
2889.97
2891.72
2895.04
Observed
wave
number
共cm⫺1兲
36 028.1
36 000.0
35 987.3
35 965.3
35 930.9
35 925.8
35 917.6
35 897.0
35 891.8
35 885.7
35 800.0
35 769.7
35 740.5
35 740.5
35 730.9
35 701.2
35 675.9
35 639.0
35 632.37
35 622.3
35 611.9
35 596.2
35 594.8
35 588.6
35 588.6
35 588.6
35 582.7
35 570.9
35 556.3
35 520.3
35 510.1
35 501.9
35 483.8
35 375.4
35 357.0
35 290.0
35 288.3
35 286.4
35 215.7
35 149.9
35 138.3
35 106.1
35 103.0
35 074.1
34 995.5
34 981.6
34 925.2
34 907.7
34 898.4
34 851.8
34 838.8
34 819.6
34 817.6
34 812.5
34 812.5
34 799.6
34 793.1
34 719.8
34 631.7
34 628.7
34 592.3
34 571.4
34 531.7
Intensity
and
comment
6a
16
13
11
4
10
17
7
6
7
3
14
12*
12*
9
17
3
4
1
6
12
7
7
10a*
10a*
10a*
3
7b
8
13a
1
16
8b
14
17
2
6
8
5
4
7
14
10
4
3
1
25
2
8
3
3
17
17
25*
25*
4
4
5
12
2
8
18
6
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
4
1
2
1
3
2
2
3
1
1
0
1
4
2
1
2
1
2
4
2
3
1
2
1
3
3
2
2
2
3
1
2
2
2
4
2
1
3
2
2
1
2
3
1
1
2
1
1
2
2
2
2
3
2
1
1
2
3
1
2
1
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
Term
1
P
F
1
F
3 ⴰ
D
3 ⴰ
D
5
F
3
F
3
F
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
5
P
5
P
3
P
3 ⴰ
D
5
P
3 ⴰ
S
3 ⴰ
P
5
F
1 ⴰ
D
1
F
1 ⴰ
F
1
F
5
P
3 ⴰ
D
3
D
3 ⴰ
D
3
F
5
P
5
P
3 ⴰ
P
5
P
3 ⴰ
P
5
P
5 ⴰ
D
3
P
3 ⴰ
D
3
F
3
F
3 ⴰ
D
5
F
5 ⴰ
D
3 ⴰ
P
3 ⴰ
S
1 ⴰ
F
1 ⴰ
D
5 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3
P
3 ⴰ
D
3
D
3 ⴰ
G
3 ⴰ
D
3 ⴰ
P
3
P
5
F
1 ⴰ
F
1
P
3 ⴰ
F
3
P
3 ⴰ
J
1
2
3
2
2
2
2
3
2
2
2
1
1
2
3
1
1
2
1
2
3
3
3
2
1
1
2
2
1
2
1
2
2
2
3
1
3
2
2
3
3
2
2
1
3
2
2
2
2
1
1
1
2
3
4
3
0
1
2
3
1
3
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
Term
1
ⴰ
D
F
3 ⴰ
F
3
P
1
D
1 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3
D
1
F
5
F
5 ⴰ
D
5 ⴰ
D
1 ⴰ
P
3
G
5 ⴰ
S
1
P
1
D
1 ⴰ
P
1
D
3 ⴰ
G
1
D
3 ⴰ
D
5 ⴰ
D
3
F
3 ⴰ
D
3
F
3 ⴰ
G
5 ⴰ
D
5 ⴰ
S
3
D
5 ⴰ
D
1
P
5 ⴰ
D
5
P
1 ⴰ
D
3
F
3 ⴰ
F
3 ⴰ
D
3
G
3 ⴰ
D
5
P
1
P
3
F
3
G
3
P
5
P
3
D
3
D
3
P
3
P
3 ⴰ
D
3
P
3 ⴰ
D
3
F
3
D
3
D
1 ⴰ
P
3 ⴰ
D
5
F
3 ⴰ
S
3
F
3 ⴰ
D
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
838
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
2896.07
2896.65
2897.70
2902.29
2904.17
2906.56
2910.09
2910.37
2911.48
2911.91
2912.38
2914.14
2915.04
2916.63
2917.60
2923.53
2923.96
2926.07
2927.13
2930.27
2932.09
2932.76
2935.72
2935.86
2939.11
2939.73
2940.21
2941.39
2942.06
2943.43
2944.56
2944.68
2945.23
2945.48
2947.51
2948.07
2950.76
2951.53
2953.86
2953.94
2954.10
2954.17
2954.93
2959.28
2959.36
2960.07
2960.34
2960.87
2964.17
2964.93
2966.92
2968.43
2968.57
2969.43
2969.77
2970.08
2970.49
2971.17
2971.26
2974.90
2976.75
2980.09
2981.32
Observed
wave
number
共cm⫺1兲
34 519.4
34 512.5
34 500.0
34 445.5
34 423.2
34 394.9
34 353.1
34 349.8
34 336.7
34 331.7
34 326.1
34 305.4
34 294.8
34 276.1
34 264.7
34 195.2
34 190.2
34 165.5
34 153.2
34 116.6
34 095.4
34 087.6
34 053.2
34 051.6
34 014.0
34 006.8
34 001.2
33 987.6
33 979.9
33 964.0
33 951.0
33 949.6
33 943.3
33 940.40
33 917.0
33 910.6
33 879.67
33 870.8
33 844.1
33 843.2
33 841.4
33 840.6
33 831.9
33 782.1
33 781.2
33 773.1
33 770.0
33 764.0
33 726.4
33 717.8
33 695.1
33 678.0
33 676.4
33 666.7
33 662.8
33 659.3
33 654.7
33 647.0
33 645.9
33 604.8
33 583.9
33 546.2
33 532.4
Intensity
and
comment
2
14
4
5
7
15
3
12
6
19
20
18
7
8
15
16
11
11
4
18
10b
18
10
15b
12
10
17
12
11b
7
7
10
18
1
17
19
1
3
6
7
10a
10a
17
9a
15a
6
13
4
13
11
10a
10
12
9
23
10
19
11
9
6b
10
3
8
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
1
2
2
4
4
3
1
1
3
1
3
3
3
4
3
2
1
5
3
1
2
4
3
3
3
3
2
3
3
1
4
1
5
2
2
4
2
4
3
2
2
0
1
2
3
1
4
2
4
3
4
3
3
3
4
1
2
2
3
2
0
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2 ⴰ
5s 5p ( P )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
ⴰ
D
Dⴰ
3 ⴰ
P
3
P
3 ⴰ
D
3 ⴰ
G
1 ⴰ
F
3
D
3 ⴰ
S
5 ⴰ
D
3
P
3 ⴰ
F
5
F
5
F
3 ⴰ
F
3 ⴰ
G
3 ⴰ
P
5
F
3 ⴰ
P
5
F
3
F
5 ⴰ
D
1
F
5
F
3
F
3 ⴰ
P
3
D
1 ⴰ
G
1
P
1 ⴰ
F
3
D
3
P
3
F
3 ⴰ
D
3
F
3 ⴰ
G
3
D
3
F
3 ⴰ
D
1 ⴰ
G
3 ⴰ
F
3
D
3 ⴰ
D
1 ⴰ
P
3
P
3 ⴰ
P
5
F
3 ⴰ
P
3
D
3
D
5
F
5
F
5
F
3
F
1 ⴰ
G
5
F
5
P
3
D
3 ⴰ
D
3 ⴰ
P
3
P
3
F
3
P
5
J
2
1
1
2
1
5
3
2
1
1
2
2
4
3
4
5
2
3
1
4
4
0
3
3
3
2
2
4
1
3
3
1
3
1
4
3
2
4
1
4
4
3
1
1
0
1
2
2
3
2
4
4
3
3
4
3
3
2
1
2
2
3
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
Term
3
P
P
3
D
3 ⴰ
D
1
D
3
F
5
F
3 ⴰ
F
3
S
5
P
3 ⴰ
D
3
D
3 ⴰ
D
3 ⴰ
D
1
F
5
F
3
D
1 ⴰ
D
3
D
3 ⴰ
G
3 ⴰ
D
5
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3
D
3 ⴰ
G
3
D
3 ⴰ
P
3
D
3 ⴰ
D
3 ⴰ
P
1 ⴰ
G
5
F
3 ⴰ
G
3
D
3 ⴰ
D
3 ⴰ
F
1
D
3
F
3
D
1 ⴰ
D
3
P
3
P
3 ⴰ
D
3
P
3 ⴰ
D
3
S
3 ⴰ
F
3 ⴰ
F
3 ⴰ
G
3 ⴰ
D
3 ⴰ
G
3 ⴰ
G
5
F
3 ⴰ
D
5 ⴰ
D
3 ⴰ
D
5
F
1
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
5
SPECTRAL LINES OF XENON
839
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
2984.58
2985.53
2986.11
2990.33
2990.82
2991.25
2991.49
2992.89
2994.37
2994.67
2994.95
2997.50
2999.03
2999.29
3001.52
3004.26
3004.65
3009.03
3014.13
3014.59
3015.41
3015.77
3020.33
3023.65
3023.83
3026.52
3042.04
3048.86
3051.21
3054.48
3055.26
3065.19
3068.57
3073.51
3080.42
3082.89
3083.53
3088.87
3090.00
3091.05
3099.87
3102.36
3102.69
3103.47
3106.34
3106.47
3107.56
3114.41
3120.52
3120.52
3121.01
3122.15
3124.60
3124.95
3126.77
3138.28
3141.63
3141.63
3150.69
3150.83
3150.97
3151.83
3153.00
Observed
wave
number
共cm⫺1兲
33 495.8
33 485.1
33 478.6
33 431.4
33 425.9
33 421.1
33 418.4
33 402.8
33 386.3
33 382.9
33 379.8
33 351.4
33 334.4
33 331.5
33 306.7
33 276.4
33 272.0
33 223.6
33 167.4
33 162.3
33 153.3
33 149.4
33 099.3
33 063.0
33 061.0
33 031.6
32 863.1
32 789.6
32 764.4
32 729.3
32 720.9
32 614.9
32 579.0
32 526.6
32 453.7
32 427.7
32 420.9
32 364.9
32 353.1
32 342.1
32 250.1
32 224.2
32 220.7
32 212.6
32 182.9
32 181.5
32 170.3
32 099.5
32 036.7
32 036.7
32 031.6
32 019.9
31 994.8
31 991.2
31 972.6
31 855.4
31 821.4
31 821.4
31 729.9
31 728.5
31 727.1
31 718.4
31 706.6
Intensity
and
comment
16
14
11
7
3
14
11
15
4
14
8
9
11a
9
11
18a
5
1b
15a
11
11
2
6
18
25
12
12
7
6
14
1
18
2
6
11
4b
18
3
11
18
11
9
10
13
13
9
6
12
10*
10*
5
9
3
9
3
20
11*
11*
15
14
18
15
13
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
4
1
3
2
2
2
1
3
3
2
1
4
3
2
4
2
4
2
1
1
3
4
2
2
1
2
1
1
1
1
3
2
0
2
2
2
3
1
2
2
1
1
0
2
1
2
3
4
1
2
3
2
1
1
3
3
3
3
1
1
3
1
3
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
Term
3
F
P
3
F
3 ⴰ
D
3
P
5
P
3 ⴰ
D
5
P
3 ⴰ
D
3
F
3 ⴰ
S
3
D
3
D
3 ⴰ
D
5
F
5
P
1 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3
P
5
F
3 ⴰ
F
3 ⴰ
D
3
P
3 ⴰ
D
1 ⴰ
P
3
D
3
P
3
P
3 ⴰ
F
3 ⴰ
D
3 ⴰ
F
1
P
3 ⴰ
P
3
P
3 ⴰ
D
3 ⴰ
F
1
P
3 ⴰ
P
3 ⴰ
G
3
P
5
F
3
P
3 ⴰ
D
1 ⴰ
D
3
P
1
F
1
F
3
P
3
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
1
D
1
F
3 ⴰ
D
3 ⴰ
P
3
P
1 ⴰ
G
1 ⴰ
D
3 ⴰ
D
3
J
4
1
4
3
1
3
2
3
3
3
1
3
3
3
5
3
3
2
2
0
2
4
2
2
2
1
2
1
0
2
2
3
1
1
1
2
4
1
1
3
1
2
1
2
2
1
3
3
2
1
2
3
2
1
2
2
3
2
2
2
4
2
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
Term
3
ⴰ
G
S
3 ⴰ
D
1
D
3 ⴰ
D
5 ⴰ
S
3
P
5 ⴰ
D
1
F
3 ⴰ
F
3
D
3 ⴰ
G
3 ⴰ
D
1
D
3 ⴰ
G
5 ⴰ
D
3
H
3
F
3
D
3 ⴰ
S
3 ⴰ
D
3
H
3
D
3 ⴰ
D
3
P
3
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3
P
3
F
3
D
1 ⴰ
S
1
D
1 ⴰ
D
3
P
3
F
3 ⴰ
D
3
D
3
F
5 ⴰ
D
3 ⴰ
S
5 ⴰ
D
5
F
3
D
5 ⴰ
S
3 ⴰ
F
1 ⴰ
G
3 ⴰ
S
5 ⴰ
D
3
D
3
P
1
P
1
P
3
D
1 ⴰ
F
3 ⴰ
G
5
P
3
S
3 ⴰ
S
1
F
3
P
5
F
3 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
840
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
3153.44
3155.51
3156.67
3160.66
3160.66
3164.47
3164.47
3169.75
3177.11
3184.27
3185.21
3196.25
3196.51
3199.22
3214.12
3222.99
3227.16
3231.70
3235.73
3236.84
3240.47
3242.86
3244.13
3246.85
3248.62
3256.25
3256.52
3257.85
3261.46
3267.05
3268.98
3269.40
3276.39
3278.44
3279.13
3280.50
3284.64
3285.82
3287.80
3287.91
3288.54
3295.94
3301.54
3304.05
3306.46
3306.80
3312.20
3314.26
3314.87
3317.45
3319.55
3320.07
3320.07
3326.39
3331.65
3332.83
3334.23
3336.24
3338.99
3339.50
3340.06
3340.37
3340.67
Observed
wave
number
共cm⫺1兲
31 702.2
31 681.4
31 669.8
31 629.8
31 629.8
31 591.7
31 591.7
31 539.1
31 466.0
31 395.3
31 386.0
31 277.6
31 275.1
31 248.6
31 103.7
31 018.1
30 978.1
30 934.54
30 896.0
30 885.42
30 850.8
30 828.1
30 816.0
30 790.2
30 773.4
30 701.3
30 698.8
30 686.2
30 652.3
30 599.8
30 581.8
30 577.8
30 512.6
30 493.5
30 487.1
30 474.4
30 436.0
30 425.0
30 406.7
30 405.7
30 399.9
30 331.6
30 280.2
30 257.2
30 235.1
30 232.0
30 182.73
30 164.0
30 158.4
30 135.0
30 115.9
30 111.2
30 111.2
30 054.0
30 006.5
29 995.90
29 983.3
29 965.2
29 940.6
29 936.0
29 931.0
29 928.2
29 925.5
Intensity
and
comment
11
10
7
8*
8*
9*
9*
7
7
11
16
15
14
7
2
12
12
4w
13
3
10
25
12
22
7
12
2
5
1
20
22
3
13
12
3
14
8
14
13
16
5
14
14
8
11a
11a
0b
6
12
6
7
8*
8*
5
15a
5u
8
7
15a
12b
13
14a
16a
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
2
2
1
3
2
2
2
1
2
1
1
1
0
1
1
1
2
0
3
2
1
4
1
3
2
2
1
2
2
2
2
1
1
4
2
2
3
2
3
3
2
0
3
1
4
4
2
2
2
2
3
3
3
1
4
1
1
3
1
2
2
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
F
P
3 ⴰ
D
1
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
1
F
1
P
1
P
1
D
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3
P
3
P
3
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
5 ⴰ
S
3 ⴰ
D
1 ⴰ
D
3
P
3 ⴰ
D
1 ⴰ
F
1 ⴰ
P
3
P
3
P
3
P
3
F
1 ⴰ
D
3
P
3 ⴰ
S
5
F
3 ⴰ
S
5
F
5
F
3 ⴰ
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3
F
3
F
1 ⴰ
D
5
F
3
F
3
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
J
3
1
2
1
0
3
1
3
1
1
2
1
1
1
1
1
0
0
2
1
2
3
2
3
2
2
2
2
1
3
2
3
2
2
1
3
1
2
2
1
3
2
2
1
3
1
4
3
1
1
2
1
2
4
2
2
4
0
1
2
2
3
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )7s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
Term
3
ⴰ
D
P
3
F
3 ⴰ
D
3
S
3
F
3
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
D
1 ⴰ
D
1
P
3
P
1
P
1
S
3 ⴰ
S
3 ⴰ
S
3 ⴰ
D
1
D
3
P
1
F
3
P
1 ⴰ
P
3
F
3
P
3
D
3
P
3
F
3
S
3
D
3
P
3
F
5
F
5 ⴰ
D
1
P
3
G
1
D
5 ⴰ
S
5 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3
D
5 ⴰ
D
3
P
3 ⴰ
F
3
P
1 ⴰ
G
1 ⴰ
G
3
D
3
P
1
D
3
F
1 ⴰ
F
3 ⴰ
F
5
F
3 ⴰ
D
1 ⴰ
G
3 ⴰ
D
3
P
3
G
3
D
3
P
1
D
3
SPECTRAL LINES OF XENON
841
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
3344.27
3344.93
3345.49
3349.76
3350.35
3353.54
3357.99
3358.50
3361.00
3362.77
3363.50
3365.32
3365.70
3370.65
3376.98
3379.03
3381.64
3383.92
3383.92
3384.10
3386.23
3390.64
3392.58
3395.53
3399.87
3403.91
3414.54
3435.74
3444.24
3444.39
3451.23
3454.27
3467.22
3468.22
3472.35
3479.14
3488.13
3494.51
3494.82
3501.65
3509.77
3519.11
3522.80
3531.62
3531.82
3539.94
3542.35
3544.86
3546.88
3552.12
3561.23
3561.37
3562.22
3562.99
3564.86
3565.19
3568.63
3574.40
3578.54
3579.70
3583.65
3584.27
3584.27
Observed
wave
number
共cm⫺1兲
29 893.3
29 887.4
29 882.4
29 844.3
29 839.1
29 810.7
29 771.2
29 766.6
29 744.50
29 728.8
29 722.4
29 706.3
29 703.0
29 659.3
29 603.8
29 585.8
29 563.0
29 543.0
29 543.0
29 541.5
29 522.9
29 484.5
29 467.6
29 442.0
29 404.5
29 369.6
29 278.1
29 097.5
29 025.7
29 024.4
28 966.9
28 941.4
28 833.3
28 825.0
28 790.7
28 734.5
28 660.5
28 608.1
28 605.6
28 549.8
28 483.7
28 408.2
28 378.4
28 307.5
28 305.9
28 241.0
28 221.8
28 201.8
28 185.7
28 144.2
28 072.2
28 071.1
28 064.4
28 058.3
28 043.6
28 041.0
28 014.0
27 968.7
27 936.4
27 927.3
27 896.5
27 891.7
27 891.7
Intensity
and
comment
4
7
2
12
6
4
15
3
1
8
2
3
3
9
3
9
4
10*
10*
12b
4
10
3
2b
7
8
2
8
20a
15a
11
16
15
14
10
4
6
8
4
11
13b
11
16
3
7
12
20
10
5
18
10
14
14
10
4
17
2
5
6b
25
25
5*
5*
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
3
3
1
4
1
3
2
1
3
2
3
1
1
2
2
3
2
3
1
2
2
4
2
1
2
2
2
2
2
1
2
2
1
1
2
3
2
4
2
3
2
1
2
0
1
2
3
3
1
1
3
2
1
3
3
2
3
2
3
4
2
1
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
Term
1 ⴰ
F
F
1 ⴰ
G
3 ⴰ
D
3
D
3
P
3 ⴰ
D
5
F
3
P
5
F
3 ⴰ
D
3
F
5
F
3 ⴰ
P
5
F
3 ⴰ
P
3
D
1 ⴰ
F
3
P
3 ⴰ
D
1
D
3 ⴰ
P
1 ⴰ
F
3
D
1 ⴰ
P
3 ⴰ
P
3
D
5
F
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
1 ⴰ
D
3 ⴰ
D
5 ⴰ
S
3
P
3 ⴰ
D
1
D
3 ⴰ
D
3 ⴰ
F
1
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
P
5 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
1
D
3 ⴰ
D
1 ⴰ
D
1 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3
P
1 ⴰ
D
5
J
3
3
4
2
3
2
2
3
0
2
2
4
1
2
3
2
3
3
2
2
2
2
3
3
1
1
3
2
1
1
0
2
3
2
1
1
2
1
3
2
2
3
1
1
1
2
3
3
2
2
1
2
2
0
2
3
2
2
1
2
3
1
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5p 6
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
Term
3
G
Gⴰ
3
F
1
P
1 ⴰ
G
3 ⴰ
D
1
F
3 ⴰ
D
5 ⴰ
D
3 ⴰ
F
5
P
3 ⴰ
G
3 ⴰ
D
3
P
3 ⴰ
F
3
D
3 ⴰ
G
3
D
3 ⴰ
F
5
P
3 ⴰ
D
3
P
1
G
3 ⴰ
D
3
D
1
D
3 ⴰ
F
3 ⴰ
F
3
D
3
P
3
P
1
D
1
D
3
P
3 ⴰ
D
5
F
3 ⴰ
D
1
D
3
F
1 ⴰ
D
3
D
3
P
3
P
3
D
1
S
3
S
5
F
3
D
3
F
1
P
1
P
1
F
3
D
3
D
3 ⴰ
D
3
D
1
D
1
F
5
P
3
F
3
F
3 ⴰ
F
3
P
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
842
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
3591.98
3593.38
3596.59
3601.87
3607.02
3609.07
3609.46
3610.97
3615.86
3618.86
3620.00
3621.59
3623.13
3624.06
3628.52
3632.14
3636.02
3640.99
3644.14
3649.57
3653.09
3654.61
3675.17
3676.63
3687.04
3689.83
3707.63
3708.15
3708.94
3711.91
3721.03
3721.82
3728.91
3739.60
3743.74
3745.71
3751.44
3757.98
3762.28
3765.85
3768.93
3772.25
3772.53
3775.49
3776.32
3781.00
3788.63
3791.67
3792.74
3801.71
3802.98
3811.74
3816.78
3819.49
3823.15
3829.71
3841.53
3841.87
3847.40
3854.28
3860.19
3861.04
3861.51
Observed
wave
number
共cm⫺1兲
27 831.9
27 821.0
27 796.2
27 755.4
27 715.8
27 700.1
27 697.1
27 685.5
27 648.1
27 625.1
27 616.4
27 604.3
27 592.6
27 585.5
27 551.6
27 524.1
27 494.8
27 457.2
27 433.5
27 392.7
27 366.3
27 354.9
27 201.9
27 191.1
27 114.3
27 093.8
26 963.7
26 960.0
26 954.2
26 932.6
26 866.6
26 860.9
26 809.9
26 733.2
26 703.7
26 689.6
26 648.9
26 602.5
26 572.1
26 546.9
26 525.2
26 501.8
26 499.9
26 479.1
26 473.3
26 440.5
26 387.27
26 366.1
26 358.7
26 296.5
26 287.7
26 227.3
26 192.7
26 174.1
26 149.0
26 104.2
26 023.9
26 021.6
25 984.2
25 937.8
25 898.1
25 892.4
25 889.3
Intensity
and
comment
8
5
17
12
22a
8h
22a
0
10
8
11
4
21a
25
8
15
11
15
10
13
8
16
2
23
3
6
1
10
8
10
1
1
5b
2
2
18
3
5
19
14
12
1
15
2b
24
28
0
15
2
8
4w
3
7
2
3
8
20
18
8
14
2
19
7
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
1
0
1
3
2
4
3
1
1
2
2
2
3
2
1
1
2
1
2
2
1
3
0
1
3
0
1
2
2
2
1
1
1
3
2
2
2
0
1
5
2
1
4
2
2
0
1
3
2
4
3
2
1
2
4
2
1
3
2
1
2
3
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 4 ⴰ
5s 5p ( S )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
ⴰ
D
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
5 ⴰ
S
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
S
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
1 ⴰ
D
3 ⴰ
S
1
D
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
1 ⴰ
F
3 ⴰ
P
1
D
3 ⴰ
D
3
F
3 ⴰ
F
3 ⴰ
F
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3
F
1
D
1 ⴰ
P
3
F
3 ⴰ
P
3 ⴰ
S
3
D
3 ⴰ
D
3
F
1 ⴰ
P
3
F
1 ⴰ
D
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
3
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3
F
1 ⴰ
D
3
D
3
J
3
1
1
1
3
2
3
2
0
2
3
1
2
2
2
0
1
1
1
2
2
1
2
1
2
3
1
2
1
1
3
2
2
1
4
2
3
2
1
1
4
2
1
4
1
1
1
1
3
1
3
2
1
1
1
4
2
2
3
3
2
2
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 4 ⴰ
5s 5p ( S )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
Term
5
P
Dⴰ
3
P
5
P
5
F
3
F
5
F
3
F
3
P
3
P
1
D
3
D
3
D
5
P
3
D
3
P
3
S
3
F
3
D
3
P
3
P
3
P
3
F
3
P
3 ⴰ
S
3
F
1
S
1
P
3
F
3
P
1
D
3
D
3 ⴰ
D
3
S
3 ⴰ
D
1
D
1
D
3
P
3
P
3
P
3 ⴰ
G
3 ⴰ
P
1
P
3 ⴰ
F
3
D
3
P
3 ⴰ
P
1
P
3 ⴰ
F
1
D
1 ⴰ
G
3
F
3
F
3
P
5
F
3 ⴰ
G
3
F
3
P
3
D
3
P
3 ⴰ
D
3
D
1 ⴰ
F
3
SPECTRAL LINES OF XENON
843
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
3877.82
3880.46
3884.99
3890.98
3895.05
3903.67
3915.31
3922.55
3932.81
3941.50
3950.12
3950.59
3965.45
3969.91
3985.96
3992.54
3992.85
3998.55
4021.60
4026.82
4028.56
4030.46
4032.91
4043.23
4050.07
4058.15
4060.45
4060.88
4072.97
4078.70
4095.03
4109.08
4110.05
4112.34
4132.40
4141.99
4143.92
4145.74
4150.78
4152.04
4152.74
4154.66
4162.37
4167.60
4176.53
4181.15
4194.87
4202.39
4203.89
4209.58
4213.99
4216.71
4225.96
4226.97
4232.66
4235.76
4240.24
4246.38
4263.40
4272.58
4274.14
4278.91
4285.89
Observed
wave
number
共cm⫺1兲
25 780.4
25 762.8
25 732.8
25 693.2
25 666.3
25 609.7
25 533.5
25 486.4
25 419.9
25 363.9
25 308.5
25 305.5
25 210.7
25 182.4
25 081.0
25 039.6
25 037.7
25 002.0
24 858.7
24 826.5
24 815.8
24 804.1
24 789.0
24 725.7
24 684.0
24 634.8
24 620.9
24 618.3
24 545.2
24 510.7
24 413.0
24 329.5
24 323.7
24 310.2
24 192.2
24 136.2
24 124.9
24 114.3
24 085.1
24 077.8
24 073.7
24 062.6
24 018.0
23 987.9
23 936.6
23 910.1
23 831.9
23 789.3
23 780.8
23 748.6
23 723.8
23 708.5
23 656.6
23 650.9
23 619.2
23 601.9
23 576.9
23 542.8
23 448.9
23 398.5
23 389.9
23 363.9
23 325.8
Intensity
and
comment
20
18
13
2
19
8
8
25
2
3
3
25
8
8
12
3
21
4
7
2
15
1
4a
14
22
5
25
2
7
21
5b
20
12
112
13b
5
22a
3b
8a
4b
5b
2
2
16
4
9
2a
13
14
24
10
0
13
12a
16
2
12
17
4
4
20
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
1
2
3
3
1
4
2
2
2
2
1
0
2
2
2
1
2
1
1
2
3
1
1
1
3
2
3
1
2
3
1
2
3
2
1
1
2
1
1
1
2
2
2
3
2
2
3
1
1
2
2
3
3
2
2
2
3
3
4
1
2
3
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
Term
3
ⴰ
D
Dⴰ
3 ⴰ
D
3
F
3 ⴰ
P
3 ⴰ
F
1 ⴰ
F
5 ⴰ
S
3
D
3 ⴰ
P
3
D
5 ⴰ
S
3 ⴰ
P
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3
D
3 ⴰ
P
3 ⴰ
S
3 ⴰ
D
1 ⴰ
P
1
D
3 ⴰ
P
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
S
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
1 ⴰ
P
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
1
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
G
1 ⴰ
F
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
F
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
1 ⴰ
F
1 ⴰ
D
3
J
3
1
3
2
2
2
3
2
2
2
1
2
1
2
2
1
2
2
1
2
2
2
1
0
1
2
1
2
2
2
2
2
2
2
1
2
2
1
1
2
0
2
2
2
3
3
2
3
1
1
3
3
3
2
2
3
3
3
2
3
1
3
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
Term
1
F
D
5
P
3 ⴰ
D
3
D
3
P
3
F
5
P
1 ⴰ
D
3
F
1 ⴰ
D
5
P
3
P
3
D
1
D
5
P
3
P
3
P
5
P
3
D
5
F
3
F
3 ⴰ
S
3
D
3
P
3
D
1
D
3 ⴰ
F
1
P
3
P
3
G
3
D
3
F
5
F
1
D
3
P
5
F
3
D
1
P
1
P
1
P
3
D
3
P
3 ⴰ
F
3
F
3
P
5
F
3 ⴰ
D
1
P
3
D
5
F
3
P
3
F
3
D
1
D
3
D
1
D
3
D
3
D
3
F
3
P
3
P
5
F
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
844
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
4287.58
4297.96
4305.83
4308.01
4309.32
4319.85
4357.63
4373.06
4386.01
4387.47
4387.72
4395.17
4413.06
4417.78
4417.97
4425.25
4434.17
4453.29
4453.60
4468.16
4470.90
4480.05
4488.90
4492.80
4492.80
4503.41
4525.63
4528.24
4528.24
4537.38
4555.51
4569.12
4578.03
4592.98
4601.60
4614.83
4620.42
4631.46
4631.65
4632.64
4641.40
4641.40
4643.60
4644.17
4656.73
4657.78
4671.60
4671.81
4673.67
4680.73
4683.55
4685.19
4697.42
4712.58
4723.60
4727.21
4743.87
4748.94
4757.32
4781.08
4794.49
4796.51
4836.28
Observed
wave
number
共cm⫺1兲
23 316.6
23 260.3
23 217.8
23 206.0
23 199.0
23 142.4
22 941.8
22 860.9
22 793.4
22 785.8
22 784.5
22 745.9
22 653.7
22 629.4
22 628.5
22 591.2
22 545.8
22 449.0
22 447.4
22 374.3
22 360.6
22 314.9
22 270.9
22 251.6
22 251.6
22 199.2
22 090.2
22 077.4
22 077.4
22 033.0
21 945.3
21 879.9
21 837.3
21 766.3
21 725.5
21 663.2
21 637.0
21 585.42
21 584.5
21 579.9
21 539.19
21 539.19
21 529.0
21 526.3
21 468.3
21 463.4
21 400.0
21 399.0
21 390.5
21 358.2
21 345.4
21 337.9
21 282.3
21 213.9
21 164.4
21 148.21
21 073.94
21 051.4
21 014.4
20 909.9
20 851.4
20 842.7
20 671.27
Intensity
and
comment
5a
1a
1a
6
7
2
3
3
4
4
4
13
8
2
3
115
1
7
5
8b
2
4a
5a*
5a*
14a
1
2h*
2h*
9a
1a
7
2
2h
2
2
6
3
2a
8
4*
4*
1
5
1h
17a
8
3
18a
1h
20
2a
6
20b
16
0
3
18
10
3h
25
8a
0
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
3
1
4
1
3
2
2
1
3
1
0
1
1
4
2
4
1
3
1
3
2
2
3
2
1
3
1
2
3
3
3
2
2
1
3
2
5
2
2
4
2
1
3
1
1
3
3
3
2
1
3
4
1
1
3
2
4
2
1
2
1
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.01
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
93GAL
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
2
5s 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3 ⴰ
P
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3
F
3 ⴰ
F
3
D
1 ⴰ
P
3 ⴰ
F
1 ⴰ
D
1 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3
F
3 ⴰ
D
1 ⴰ
F
3 ⴰ
D
3 ⴰ
D
1 ⴰ
P
3
F
3 ⴰ
F
3 ⴰ
P
3
F
1 ⴰ
D
3 ⴰ
F
3
D
1
P
3 ⴰ
D
1
F
3 ⴰ
P
1 ⴰ
F
3 ⴰ
F
3 ⴰ
F
1 ⴰ
D
1 ⴰ
F
3 ⴰ
P
3
G
3 ⴰ
F
3 ⴰ
F
3
G
3 ⴰ
P
3
D
3
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
F
1 ⴰ
D
3 ⴰ
F
3 ⴰ
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
S
3
D
3 ⴰ
F
1 ⴰ
F
3 ⴰ
F
3
D
3 ⴰ
D
3 ⴰ
F
3
S
3
J
1
1
3
2
3
2
3
2
1
2
2
1
1
2
1
4
1
3
2
2
1
4
2
1
2
2
2
2
1
3
3
2
3
2
3
2
3
2
4
2
3
4
1
2
3
2
0
2
2
3
1
2
3
3
1
2
2
3
3
1
1
3
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2 ⴰ
5s 5p ( P )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
Term
3
D
P
5
F
3
S
5
F
3 ⴰ
D
5
P
3 ⴰ
D
3
P
3
P
3
D
3
S
3
P
3
D
3
P
1 ⴰ
G
3
F
3
F
1
P
1
F
1
P
3 ⴰ
G
5
P
3
F
1 ⴰ
F
1
D
5
P
3 ⴰ
D
3 ⴰ
D
3
F
3 ⴰ
D
3
F
3
F
3
P
3
P
1
P
3
D
1
D
3 ⴰ
G
5
F
5
F
3 ⴰ
F
3
D
3 ⴰ
S
1 ⴰ
F
1
P
3
S
3
D
1
F
3
D
5
P
3
D
1
F
3
F
5
P
3 ⴰ
S
5
F
1
D
5
F
3 ⴰ
D
3
D
5
P
1 ⴰ
P
3 ⴰ
SPECTRAL LINES OF XENON
845
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
4841.80
4850.93
4854.80
4869.40
4881.05
4906.42
4918.87
4926.72
4927.51
4943.57
4952.53
4996.10
5008.53
5023.01
5026.70
5038.62
5040.06
5041.40
5070.53
5107.33
5114.53
5142.98
5148.03
5203.67
5203.67
5223.62
5229.99
5233.10
5233.96
5238.92
5242.67
5253.96
5271.35
5292.92
5310.97
5316.58
5318.30
5321.57
5322.80
5332.98
5347.17
5347.87
5364.39
5367.03
5371.01
5372.83
5384.15
5386.64
5401.01
5413.49
5426.68
5431.38
5448.54
5453.06
5454.32
5462.12
5470.94
5481.19
5503.98
5509.65
5509.65
5510.53
5524.33
Observed
wave
number
共cm⫺1兲
20 647.71
20 608.85
20 592.42
20 530.7
20 481.7
20 375.77
20 324.2
20 291.8
20 288.6
20 222.65
20 186.1
20 010.0
19 960.37
19 902.83
19 888.22
19 841.17
19 835.50
19 830.23
19 716.31
19 574.25
19 546.69
19 438.56
19 419.50
19 211.86
19 211.86
19 138.48
19 115.17
19 103.81
19 100.68
19 082.59
19 068.94
19 027.97
18 965.19
18 887.91
18 823.72
18 803.85
18 797.77
18 786.22
18 781.88
18 746.03
18 696.28
18 693.83
18 636.27
18 627.10
18 613.30
18 606.99
18 567.87
18 559.29
18 509.91
18 467.24
18 422.35
18 406.41
18 348.44
18 333.23
18 329.00
18 302.82
18 273.32
18 239.15
18 163.62
18 144.93
18 144.93
18 142.03
18 096.72
Intensity
and
comment
1b
0
0
21
2
0u
1
1a
5
0
1
0
23
3
0u
2
1b
9
1h
14
1
6
1
1*
1*
11
1
3
1
16
1
1
2
4
7
0
0
1b
1
0b
5
6
1
14
2
3a
1
6
17
10
0b
0
0
5
3
1
2
1
2
3*
3*
2
8
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
2
1
3
2
4
1
1
1
2
2
3
2
2
2
2
3
1
1
0
3
3
3
2
1
3
5
2
1
2
4
2
3
3
2
1
1
5
2
2
2
4
2
2
2
1
2
1
2
2
2
2
3
2
3
3
3
2
3
0
0
4
2
0.01
0.01
0.01
0.05
0.05
0.01
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.05
0.01
0.01
0.01
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
93GAL
93GAL
93GAL
88PER
88PER
93GAL
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
88PER
93GAL
93GAL
93GAL
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
93GAL
93GAL
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
2
3 2
ⴰ
5s 5p ( D )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s5p 5
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
Term
3
P
P
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3
D
3 ⴰ
S
3
D
3
G
5
F
3 ⴰ
P
1
P
3
F
3 ⴰ
D
1
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
1 ⴰ
F
1 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3
H
3 ⴰ
D
3 ⴰ
P
3 ⴰ
S
3
H
3 ⴰ
P
3
H
3 ⴰ
F
3 ⴰ
D
3 ⴰ
P
1
D
3
H
3
D
5
F
3 ⴰ
P
3
H
1 ⴰ
F
3 ⴰ
D
3 ⴰ
G
1 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
F
3
D
3
S
3
H
3 ⴰ
D
3 ⴰ
P
3
G
3
D
3 ⴰ
D
3 ⴰ
F
1
P
3 ⴰ
S
1 ⴰ
F
3 ⴰ
D
1
J
0
1
1
2
1
3
2
2
1
2
3
3
1
1
3
2
2
1
2
1
2
3
3
2
2
2
5
3
2
1
5
2
4
4
1
2
2
4
3
3
2
5
3
2
3
1
1
0
2
3
3
1
4
1
2
3
3
2
4
1
1
3
2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 4 ⴰ
5s 5p ( S )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
Term
3
ⴰ
D
Dⴰ
3
D
3
F
1
D
3
F
3
S
5 ⴰ
D
3
P
5 ⴰ
S
3 ⴰ
P
3 ⴰ
D
3
F
1 ⴰ
D
5 ⴰ
S
3
F
1 ⴰ
F
3
D
3
P
3
P
3
F
3
F
3
D
3
D
1
P
1
F
3 ⴰ
G
3
D
3
P
5
F
3 ⴰ
F
3
D
3 ⴰ
D
5
P
3
P
5
F
1 ⴰ
P
3 ⴰ
G
1 ⴰ
D
3 ⴰ
D
3
P
3 ⴰ
G
3
F
3
F
5
P
3
S
3
D
3
D
5
F
5
F
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3
F
3
D
3 ⴰ
F
3 ⴰ
D
3
D
3
D
3 ⴰ
P
3
P
3
F
1
D
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
846
E. B. SALOMAN
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
5533.61
5537.20
5540.33
5545.61
5548.05
5552.78
5565.83
5567.88
5570.07
5570.07
5604.33
5610.18
5641.26
5653.87
5657.24
5663.85
5666.27
5701.24
5711.80
5748.67
5754.03
5761.94
5780.51
5857.55
5904.13
5913.6
5961.15
5970.0
6026.51
6035.31
6060.35
6064.50
6110.35
6111.78
6111.90
6129.10
6135.21
6163.87
6196.42
6203.81
6205.96
6221.64
6238.19
6259.05
6260.10
6268.33
6273.33
6275.94
6283.74
6333.90
6341.26
6367.63
6371.65
6396.07
6407.53
6409.67
6454.53
6456.10
6462.19
6484.78
6493.33
6501.08
6513.62
Observed
wave
number
共cm⫺1兲
18 066.37
18 054.65
18 044.45
18 027.27
18 019.35
18 004.00
17 961.78
17 955.17
17 948.11
17 948.11
17 838.39
17 819.79
17 721.62
17 682.09
17 671.56
17 650.94
17 643.40
17 535.18
17 502.76
17 390.50
17 374.30
17 350.45
17 294.72
17 067.25
16 932.60
16 905.49
16 770.64
16 745.78
16 588.76
16 564.57
16 496.13
16 484.84
16 361.15
16 357.32
16 357.00
16 311.09
16 294.85
16 219.09
16 133.89
16 114.67
16 109.09
16 068.49
16 025.86
15 972.45
15 969.77
15 948.80
15 690.18
15 936.09
15 929.46
15 909.69
15 783.70
15 765.38
15 700.09
15 630.28
15 602.33
15 597.12
15 488.71
15 484.95
15 470.35
15 416.46
15 396.16
15 377.81
15 348.21
Intensity
and
comment
0
0
0
0
2
5
1a
0
0*
0*
4
2
1
1
1
1
2
3
0
6
4
1
2
3
0
共1兲
共10兲H
共1兲
1a
0
共1兲
0
3
0a
0a
1
0
0b
1
1
10
5
13
14
7
1
2
1a
2
6
3
3
3h
1
1
1
2
3
1
3
1
7
2
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
2
1
4
3
3
3
2
2
3
4
3
1
2
4
2
2
2
2
3
2
3
1
1
1
2
1
2
1
3
1
4
5
3
4
3
1
3
2
3
3
3
4
3
1
4
4
3
2
3
1
2
1
2
2
3
1
3
2
2
1
0
0.01
0.01
0.01
0.01
0.05
0.05
0.05
0.01
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.01
0.05
0.01
0.05
0.05
0.05
0.05
0.01
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
93GAL
93GAL
93GAL
93GAL
88PER
88PER
88PER
93GAL
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
93GAL
88PER
93GAL
88PER
88PER
88PER
88PER
93GAL
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Configuration
5
5s5p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1 ⴰ
P
P
1
F
1
D
3 ⴰ
F
3 ⴰ
P
1 ⴰ
F
3
G
3
P
5
F
3 ⴰ
F
3 ⴰ
F
3
G
3 ⴰ
P
3
G
3
G
1 ⴰ
D
3 ⴰ
D
1
D
3 ⴰ
D
3
G
3 ⴰ
P
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
5
F
3 ⴰ
D
5
P
3 ⴰ
D
5
P
1 ⴰ
D
3
P
5
F
3
G
3 ⴰ
D
3
G
3 ⴰ
P
1 ⴰ
D
3
F
3
D
5
F
3 ⴰ
P
1 ⴰ
F
5
F
3 ⴰ
P
1 ⴰ
D
3
G
1 ⴰ
F
3
F
3
D
3
D
3
P
1 ⴰ
D
1
P
5
F
3 ⴰ
D
5 ⴰ
D
3
P
5 ⴰ
S
3
P
5 ⴰ
D
5
F
5
F
3
J
1
2
3
2
4
2
3
3
1
1
4
4
4
2
3
4
2
3
2
2
4
1
2
1
2
2
1
1
1
2
2
2
4
5
2
5
2
2
3
3
4
2
3
5
2
2
5
3
4
3
3
1
2
1
2
3
3
2
2
2
3
1
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 2
ⴰ
5s 5p ( D )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Pⴰ )4 f
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )6p
5s5p 5
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
Term
3
F
Dⴰ
5 ⴰ
S
3 ⴰ
P
3
F
5
F
5
F
3 ⴰ
G
3 ⴰ
F
3 ⴰ
D
5
F
5
F
3 ⴰ
F
3
P
3 ⴰ
F
1 ⴰ
G
3
F
3
F
3 ⴰ
D
3
P
3 ⴰ
G
1
D
3
F
3
P
3
D
3 ⴰ
S
3
D
1 ⴰ
P
1
D
1 ⴰ
P
3
G
1 ⴰ
P
5 ⴰ
D
3 ⴰ
G
3
F
3 ⴰ
F
3
D
3
P
3 ⴰ
D
3 ⴰ
P
5 ⴰ
D
1
F
1
F
5 ⴰ
D
5
F
3
D
3 ⴰ
G
3
G
5 ⴰ
D
5 ⴰ
S
5 ⴰ
D
3 ⴰ
S
3
P
3 ⴰ
S
5 ⴰ
S
1
D
3
G
5 ⴰ
D
3
G
5 ⴰ
S
5
F
5 ⴰ
D
5 ⴰ
D
3
SPECTRAL LINES OF XENON
847
Spectral lines of Xe III –Continued
Observed
air
wavelength
共Å兲
6530.17
6541.47
6545.58
6556.35
6558.5
6585.26
6608.30
6611.28
6619.33
6622.88
6625.46
6638.35
6561.36
6656.17
6657.74
6665.55
6698.81
6710.60
6722.74
6733.87
6759.44
6767.94
6780.40
6799.47
6815.76
6818.16
6826.81
6847.83
6850.12
6858.44
6895.69
6918.74
6949.93
7043.99
7049.35
7127.3
7174.94
7185.93
7298.99
7311.15
7311.15
7353.0
7449.0
7460.82
7653.84
7777.1
7790.5
7902.9
8020.07
8038.26
8047.28
8239.3
8869.40
Observed
wave
number
共cm⫺1兲
15 309.31
15 282.86
15 273.27
15 248.18
15 243.18
15 181.24
15 128.31
15 121.49
15 103.10
15 095.00
15 089.12
15 059.83
15 236.53
15 019.51
15 015.97
14 998.37
14 923.90
14 897.68
14 870.78
14 846.20
14 790.04
14 771.47
14 744.32
14 702.97
14 667.83
14 662.67
14 644.09
14 599.14
14 594.26
14 576.55
14 497.81
14 449.51
14 384.67
14 192.59
14 181.79
14 026.69
13 933.56
13 912.25
13 696.75
13 673.97
13 673.97
13 596.15
13 420.92
13 399.66
13 061.74
12 854.73
12 832.62
12 650.10
12 465.29
12 437.08
12 423.14
12 133.62
11 271.62
7
2
4w
3a
共6兲Hw
3
2
7
15
2
8
3a
1b
15
2
2
2
0
6
15
2h
4
22a
4
0h
5
0
4
1
0
0
0
共100兲H
20h
4h
共10兲Hw
8h
8
2h
共10兲h*
共10兲h*
共5兲Hw
4
30H
5h
共10兲
共1兲
共4兲
共5兲b
共100兲hb
共20兲h
共2兲h
共2兲H
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
1
1
3
3
4
1
3
3
1
1
1
3
4
3
2
3
2
2
4
2
2
5
2
3
0
4
1
4
3
1
5
5
1
3
4
1
2
1
2
3
2
1
2
2
1
3
3
3
3
4
2
2
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.10
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
93GAL
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
81HUM
81HUM
88PER
81HUM
81HUM
81HUM
88PER
88PER
88PER
81HUM
81HUM
81HUM
88PER
88PER
88PER
88PER
88PER
88PER
88PER
88PER
Classification
Intensity
and
comment
Configuration
2
3 4 ⴰ
5s 5p ( S )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )7s
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )5d
5s 2 5p 3 ( 2 Dⴰ )6s
5s 2 5p 3 ( 2 Pⴰ )6s
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
Term
5
ⴰ
D
F
5 ⴰ
D
5 ⴰ
D
3
F
3
H
5 ⴰ
S
5 ⴰ
D
5 ⴰ
S
1
D
5 ⴰ
D
5 ⴰ
D
5 ⴰ
D
3
F
3
F
1 ⴰ
F
3
H
3
F
3
F
5 ⴰ
D
5 ⴰ
D
1 ⴰ
P
5 ⴰ
D
5 ⴰ
D
3
F
3 ⴰ
D
3
F
1
D
5 ⴰ
D
3
H
3 ⴰ
P
1
H
3
H
3 ⴰ
D
1 ⴰ
F
1
H
1 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3
P
5 ⴰ
S
1
F
1 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3
F
3 ⴰ
D
3
F
3 ⴰ
D
3
F
3
G
3 ⴰ
D
3 ⴰ
D
3
J
1
2
2
2
4
5
2
3
2
2
0
1
4
4
2
3
4
3
3
3
3
1
4
1
2
1
4
2
4
4
0
5
6
2
3
5
2
1
2
1
2
3
2
3
2
2
2
2
2
4
5
2
1
4.4. Xe IV
Sb isoelectronic sequence
Ground state
ⴰ
1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 105s 2 5p 3 4 S3/2
⫺1
Ionization energy 330 000⫾3000 cm
共40.9⫾0.4 eV兲
关83GRE兴
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
3 4 ⴰ
5s 5p ( S )5 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6p
5s 2 5p 3 ( 2 Dⴰ )6p
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 4 Sⴰ )5 f
5s 2 5p 3 ( 4 Sⴰ )6d
5s 2 5p 3 ( 2 Dⴰ )6d
5s 2 5p 3 ( 2 Pⴰ )4 f
5s 2 5p 3 ( 4 Sⴰ )5 f
Term
5
F
Dⴰ
5
F
5
F
3 ⴰ
D
1 ⴰ
G
5
F
5
F
5
F
3 ⴰ
S
5
F
5
F
3
G
3 ⴰ
F
3 ⴰ
F
3
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
5
F
3
F
1
D
5
F
3
F
3 ⴰ
G
3
P
3 ⴰ
G
3 ⴰ
D
5
F
3 ⴰ
G
3
D
3 ⴰ
G
3 ⴰ
G
3
P
3
F
3 ⴰ
G
3
P
3
P
3
D
1 ⴰ
D
3
F
1 ⴰ
D
3
D
3
P
1
D
3 ⴰ
D
3
G
3 ⴰ
D
5
F
3 ⴰ
D
1 ⴰ
G
3
F
5
F
3
Analyses of the spectrum of triply ionized xenon, Xe IV,
were published by Gallardo et al. 关95GAL兴 and by Tauheed
et al. 关93TAU兴. We use the levels determined by Gallardo
et al. 关95GAL兴 for the 5s 2 5 p 2 6 p, 5s 2 5 p 2 4 f , 5s5p 4 ,
5s 2 5 p 2 5d, and the 5s 2 5 p 2 6s 共except for the 2 S1/2) levels.
We use the levels determined by Tauheed et al. 关93TAU兴 for
the 5s 2 5 p 3 and the 5s 2 5 p 2 6s 2 S1/2 levels. Bertuccelli et al.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
848
E. B. SALOMAN
关00BER兴 suggest a change in the value of the energy of the
( 3 P)4 f 4 D5/2 level from 191 978.1 to 191 995 cm⫺1. However, the existing level energy is supported by seven lines in
our Xe IV line table. Therefore, we have not made the
change. The 3271.21 Å line reported by Bertuccelli et al.
关00BER兴 was the only line they reported that could not be
classified with the levels in the Xe IV level table.
Gallardo et al. 关95GAL兴 provided the wavelengths for 618
line classifications in our list. The VUV was studied using
direct-current hollow cathode discharge, theta-pinch discharge, and capillary pulsed discharge as the light sources.
The visible/near UV spectra were obtained using pulsed discharge devices 共conventionally pumped gas laser tubes兲.
They estimate their wavelength uncertainty as ranging from
0.005 to 0.015 Å. We correct 12 misprints in their line list.
Tauheed et al. 关93TAU兴 classified 114 VUV lines. They
used a modified triggered spark initiated by a puff of xenon
gas as their source. The quoted accuracy of their wavelength
measurements is 0.005 Å. We correct one misprint in their
line list.
These two data sets are the primary sources for our Xe IV
line list. Where duplicate lines exist, these sources were
given priority. Additional sources of lines 共a total of 37 lines兲
in order of priority are 关91REY兴, 关86DIR兴, 关85REY兴,
关81HUM兴 共whose Xe IV lines in our Xe IV line list were due
to Boyce兲, and 关81GAL兴. Note that all sources of lines in our
list except 关93TAU兴 and 关81HUM兴 involve the work of the
La Plata, Argentina group.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe IV levels. Only classifiable lines are included in our compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 with the parameters determined by Gallardo
et al. 关95GAL兴 and by Tauheed et al. 关93TAU兴 are used to
help resolve choices between multiple possible classifications of lines. Intensities reported are those given in the
stated references and are not on a common scale.
The intensity codes given in the Xe IV line table are taken
from the specified sources. Their meaning is stated below:
Symbol
Definition
b
blend
h
hazy
*
two or more classifications of this line share the
same intensity
The ionization energy was determined from data obtained
from electron-impact-ionization studies by Gregory et al.
关83GRE兴.
References
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
81GAL
M. Gallardo and J. G. Reyna Almandos, Xenon
Lines in the Range from 2000 Å to 7000 Å,
Serie ‘‘Monografias Cientificas’’ No. 1, Centro
de Investigaciones Opticas, La Plata, 1981.
81HUM
C. J. Humphreys, Compilation of the Spectra of
Ionized Xenon, 1981 共unpublished兲.
83GRE
D. C. Gregory, P. F. Dittner, and D. H. Crandall,
Phys. Rev. A 27, 724 共1983兲.
85REY
J. G. Reyna Almandos, F. Bredice, H. O. Di
Rocco, and M. Gallardo, Opt. Pura Apl. 18, 87
共1985兲.
86DIR
H. O. Di Rocco, J. G. Reyna Almandos, M.
Gallardo, and W. Persson, Phys. Rev. A 33,
2114 共1986兲.
91REY
J. G. Reyna Almandos, F. Bredice, M. Gallardo,
C. J. B. Pagan, H. O. Di Rocco, and A. G.
Trigueiros, Phys. Rev. A 43, 6098 共1991兲.
93TAU
A. Tauheed, Y. N. Joshi, and E. H. Pinnington,
Phys. Scr. 47, 555 共1993兲.
95GAL
M. Gallardo, M. Raineri, J. G. Reyna
Almandos, H. O. Di Rocco, D. Bertuccelli, and
A. G. Trigueiros, Phys. Scr. 51, 737 共1995兲.
00BER
G. Bertuccelli, H. O. Di Rocco, D. I. Iriarte, and
J. A. Pomarico, Phys. Scr. 62, 277 共2000兲.
Energy levels of Xe IV
Energy level
共cm⫺1兲
Parity
Configuration
0.0
13 267.0
17 510.7
28 036.4
35 649.6
1
1
1
1
1
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
99 663.8
106 923.2
109 254.4
121 928.9
125 474.7
150 737.3
165 995.3
177 951.1
0
0
0
0
0
0
0
0
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s5p 4
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
4 ⴰ
S
Dⴰ
2 ⴰ
D
2 ⴰ
P
2 ⴰ
P
2
4
P
P
4
P
2
D
2
D
2
S
2
P
2
P
4
J
Source
of level
3/2
3/2
5/2
1/2
3/2
93TAU
93TAU
93TAU
93TAU
93TAU
5/2
3/2
1/2
3/2
5/2
1/2
3/2
1/2
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
SPECTRAL LINES OF XENON
849
Energy levels of Xe IV –Continued
Energy level
共cm⫺1兲
Parity
Configuration
133 027.4
134 980.6
136 495.9
136 796.3
141 624.8
141 824.4
145 011.2
145 105.7
145 991.1
146 206.5
148 685.0
155 863.9
159 642.8
160 665.1
161 434.7
162 866.5
163 463.1
163 596.7
169 001.5
172 892.2
176 041.9
176 122.2
177 923.3
179 000.5
182 571.0
188 272.6
190 030.5
190 369.3
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 S)5d
157 205.0
165 280.0
167 206.4
170 490.3
173 221.8
186 048.6
187 546.9
202 054.6
0
0
0
0
0
0
0
0
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 1 S)6s
180 151.5
182 219.1
187 532.9
188 251.8
188 720.6
189 842.1
191 858.2
191 978.1
195 784.6
196 325.2
196 506.1
196 654.7
199 397.0
202 076.1
205 205.0
205 216.7
206 216.2
206 713.1
208 621.1
213 735.6
219 001.7
219 717.3
220 789.8
228 975.4
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 S)4 f
4
J
Source
of level
P
F
4
F
2
P
4
F
2
F
2
F
4
D
4
F
4
D
4
D
4
D
4
P
2
G
4
P
4
P
2
G
2
D
2
D
2
P
2
F
2
D
2
F
2
D
2
P
2
S
2
D
2
D
3/2
3/2
5/2
1/2
7/2
5/2
7/2
1/2
9/2
3/2
5/2
7/2
5/2
7/2
3/2
1/2
9/2
3/2
5/2
1/2
5/2
3/2
7/2
5/2
3/2
1/2
5/2
3/2
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
4
P
P
2
P
4
P
2
P
2
D
2
D
2
S
1/2
3/2
1/2
5/2
3/2
5/2
3/2
1/2
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
93TAU
Gⴰ
Gⴰ
4 ⴰ
D
4 ⴰ
G
2 ⴰ
D
2 ⴰ
G
4 ⴰ
F
4 ⴰ
D
4 ⴰ
D
4 ⴰ
F
4 ⴰ
F
4 ⴰ
D
2 ⴰ
D
2 ⴰ
G
2 ⴰ
F
2 ⴰ
F
2 ⴰ
G
2 ⴰ
G
2 ⴰ
F
2 ⴰ
D
2 ⴰ
D
2 ⴰ
F
2 ⴰ
P
2 ⴰ
F
5/2
7/2
7/2
9/2
5/2
7/2
3/2
5/2
3/2
7/2
5/2
1/2
3/2
9/2
5/2
7/2
9/2
7/2
5/2
3/2
5/2
7/2
1/2
7/2
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
Term
2
4
4
4
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
850
E. B. SALOMAN
Energy levels of Xe IV –Continued
Energy level
共cm⫺1兲
Parity
Configuration
186 109.1
190 792.5
193 860.6
196 724.9
198 943.1
200 486.2
200 899.4
201 027.6
202 951.1
204 140.0
206 061.2
207 056.6
209 343.7
215 625.5
216 141.0
216 910.7
217 239.7
220 081.6
224 498.2
232 811.4
235 560.7
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 1 S)6p
Term
J
Source
of level
Dⴰ
Dⴰ
2 ⴰ
S
2 ⴰ
D
4 ⴰ
D
2 ⴰ
D
4 ⴰ
P
4 ⴰ
S
4 ⴰ
D
4 ⴰ
P
2 ⴰ
P
4 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
D
2 ⴰ
D
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
1/2
3/2
1/2
3/2
5/2
5/2
1/2
3/2
7/2
3/2
3/2
5/2
1/2
5/2
3/2
5/2
7/2
1/2
3/2
1/2
3/2
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
4
4
Spectral lines of Xe IV
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
Configuration
Term
525.305
558.65
571.421
574.656
577.295
578.399
578.780
579.653
586.555
591.709
593.349
598.073
600.940
602.440
603.38
605.042
605.842
607.231
611.274
614.002
614.044
614.351
616.028
619.249
619.449
623.406
624.086
625.177
626.402
626.473
630.473
630.797
636.051
190 365.6
179 003.
175 002.3
174 017.2
173 222.
172 891.0
172 777.2
172 517.0
170 487.0
169 002.0
168 534.9
167 203.7
166 406.0
165 991.6
165 733.
165 277.8
165 059.5
164 682.0
163 592.8
162 865.9
162 854.8
162 773.4
162 330.3
161 485.9
161 433.8
160 409.1
160 234.3
159 954.7
159 641.9
159 623.8
158 611.1
158 529.6
157 220.1
5
0.5
6
30
⫺1
5
20
6
45
2
20
20
20
25
8
55
6
2
20
65
65
60
52
55
70
75
5
40b
85
50
50
65
65
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
4 ⴰ
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3/2
5/2
1/2
1/2
3/2
1/2
5/2
5/2
5/2
5/2
5/2
1/2
1/2
3/2
5/2
3/2
3/2
1/2
3/2
1/2
3/2
5/2
3/2
5/2
3/2
7/2
1/2
3/2
5/2
1/2
3/2
5/2
5/2
0.005
0.01
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
93TAU
91REY
93TAU
93TAU
81HUM
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
91REY
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
Classification
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
S
S
2 ⴰ
D
2 ⴰ
P
4 ⴰ
S
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
4 ⴰ
S
4 ⴰ
S
2 ⴰ
D
4 ⴰ
S
2 ⴰ
P
4 ⴰ
S
2 ⴰ
D
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
4 ⴰ
S
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
S
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
4 ⴰ
J
3/2
3/2
3/2
1/2
3/2
3/2
3/2
5/2
3/2
3/2
5/2
3/2
3/2
3/2
3/2
3/2
5/2
3/2
3/2
3/2
3/2
3/2
1/2
5/2
3/2
5/2
1/2
3/2
3/2
3/2
5/2
5/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 S)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)6s
5s5p 4
2
5s 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
Term
2
D
D
2
S
2
S
2
P
2
P
2
D
2
D
4
P
2
D
2
D
2
P
2
S
2
P
2
D
4
P
2
P
2
P
2
D
4
P
2
D
2
F
2
D
2
D
4
P
2
F
2
S
2
P
4
P
2
P
2
D
2
F
4
P
2
SPECTRAL LINES OF XENON
851
Spectral lines of Xe IV—Continued
Observed
vacuum
wavelength
共Å兲
636.117
642.123
642.215
646.339
647.110
647.764
649.614
653.695
654.765
655.220
657.83
658.333
660.111
663.410
664.912
665.212
667.049
668.462
672.565
673.480
674.906
675.284
676.742
680.647
683.180
683.971
684.543
688.784
689.147
690.33
694.756
697.607
698.552
703.583
705.094
711.896
718.54
722.798
724.865
728.640
731.028
732.627
737.685
738.460
740.849
741.621
749.642
751.727
752.236
758.495
762.352
767.208
774.196
777.035
777.876
781.58
784.324
795.000
796.974
804.410
Observed
wave
number
共cm⫺1兲
157 203.8
155 733.4
155 711.1
154 717.6
154 533.2
154 377.2
153 937.6
152 976.5
152 726.6
152 620.5
152 015.
151 898.8
151 489.7
150 736.3
150 395.8
150 328.0
149 914.0
149 597.1
148 684.5
148 482.5
148 168.8
148 085.8
147 766.8
146 919.0
146 374.3
146 205.0
146 082.9
145 183.4
145 107.
144 858.
143 935.4
143 347.2
143 153.3
142 129.6
141 825.1
140 470.0
139 171.1
138 351.2
137 956.7
137 242.0
136 793.7
136 495.1
135 559.2
135 416.9
134 980.3
134 839.8
133 397.0
133 027.0
132 937.0
131 840.0
131 173.0
130 342.7
129 166.3
128 694.3
128 555.2
127 946.0
127 498.3
125 786.2
125 474.6
124 314.7
Intensity
and
comment
60
75
60
50
60
75
50
80
65
55
0.5
40
50
20
25
70
65
25b
75
70
30
30
25
35
35
70
75
45
0
4
40
50
80b
60
65
2
8
75
30
45
40b
75
40
60
40
0
20
50
60
55
52
5
1
50
15
6
45
20
25
20b
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1/2
5/2
3/2
3/2
3/2
5/2
1/2
5/2
3/2
1/2
3/2
3/2
5/2
1/2
5/2
3/2
1/2
1/2
5/2
3/2
3/2
3/2
3/2
3/2
5/2
3/2
3/2
3/2
1/2
1/2
1/2
5/2
7/2
5/2
5/2
3/2
1/2
7/2
3/2
1/2
1/2
5/2
3/2
5/2
3/2
5/2
3/2
3/2
3/2
1/2
5/2
3/2
1/2
3/2
5/2
3/2
7/2
3/2
5/2
5/2
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
91REY
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
81HUM
91REY
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
91REY
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
81HUM
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
91REY
93TAU
93TAU
93TAU
93TAU
Classification
Configuration
2
3
5s 5p
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
Term
4 ⴰ
S
Dⴰ
2 ⴰ
D
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
S
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
S
2 ⴰ
D
2 ⴰ
P
4 ⴰ
S
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
D
4 ⴰ
S
2 ⴰ
P
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
P
4 ⴰ
S
4 ⴰ
S
2 ⴰ
P
2 ⴰ
D
4 ⴰ
S
2 ⴰ
P
2 ⴰ
P
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
P
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
4 ⴰ
S
2 ⴰ
D
2
J
3/2
3/2
5/2
3/2
1/2
3/2
3/2
5/2
3/2
3/2
3/2
3/2
5/2
3/2
3/2
3/2
1/2
3/2
3/2
5/2
3/2
1/2
5/2
3/2
3/2
3/2
5/2
1/2
3/2
1/2
3/2
3/2
5/2
5/2
3/2
3/2
1/2
5/2
1/2
3/2
3/2
3/2
1/2
3/2
3/2
3/2
1/2
3/2
3/2
3/2
5/2
3/2
1/2
5/2
3/2
3/2
5/2
3/2
3/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s5p 4
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 1 D)5d
Term
4
P
D
2
P
2
D
2
P
2
D
2
P
4
P
2
P
2
S
4
P
2
D
2
D
2
S
2
D
2
D
2
P
4
P
4
D
2
P
4
P
2
D
4
P
2
P
4
P
4
D
2
D
2
P
4
D
2
P
4
P
2
D
2
G
4
P
2
F
2
D
2
P
4
D
2
P
2
P
2
P
4
F
2
D
4
D
4
F
4
P
4
P
2
P
4
D
4
D
4
D
2
P
4
P
4
D
2
F
2
D
2
F
4
P
2
D
2
F
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
852
E. B. SALOMAN
Spectral lines of Xe IV—Continued
Observed
vacuum
wavelength
共Å兲
805.695
809.533
811.504
814.994
820.166
821.611
835.005
840.439
846.23
851.286
854.189
865.673
868.903
880.04
891.185
904.51
908.38
915.296
915.60
917.79
919.466
920.298
926.242
931.17
934.15
935.253
939.87
952.470
957.707
968.18
974.95
983.29
986.55
988.673
991.85
999.11
1002.67
1003.380
1006.731
1008.68
1009.43
1009.86
1018.81
1026.945
1028.63
1030.28
1032.99
1034.54
1041.813
1061.44
1062.65
1064.11
1065.056
1067.695
1068.81
1069.21
1081.39
1083.25
1084.66
1089.65
Observed
wave
number
共cm⫺1兲
124 116.4
123 528.0
123 228.0
122 700.3
121 926.5
121 712.1
119 759.8
118 985.4
118 171.2
117 469.3
117 070.1
115 517.1
115 087.6
113 631.2
112 210.1
110 557.1
110 086.1
109 254.3
109 218.0
108 957.4
108 758.8
108 660.5
107 963.1
107 391.8
107 049.2
106 922.9
106 397.7
104 990.2
104 416.1
103 286.6
102 569.4
101 699.4
101 363.3
101 145.7
100 821.7
100 089.1
99 733.7
99 663.1
99 331.4
99 139.5
99 065.8
99 023.6
98 153.7
97 376.2
97 216.7
97 061.0
96 806.4
96 661.3
95 986.5
94 211.6
94 104.4
93 975.2
93 891.8
93 659.7
93 562.0
93 527.0
92 473.6
92 314.8
92 194.8
91 772.6
Intensity
and
comment
75b
60
62
35
4
35
45
25
0.5
65
25
55
35
11
40
8
3
80
9
6
30
82
82
8
9
85
7
15
30
7
4
1
9
40
1
6
11
95
6
6
6
2
9
6
12
10
2
5
9
6
6
6
20
25
5
5
8
1
11
6
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
7/2
1/2
5/2
1/2
3/2
3/2
3/2
5/2
3/2
3/2
1/2
3/2
1/2
3/2
5/2
3/2
3/2
1/2
3/2
5/2
1/2
3/2
5/2
5/2
7/2
3/2
3/2
3/2
3/2
7/2
3/2
5/2
3/2
1/2
5/2
1/2
3/2
5/2
3/2
3/2
3/2
3/2
1/2
3/2
3/2
3/2
3/2
7/2
1/2
3/2
3/2
1/2
3/2
3/2
5/2
5/2
3/2
5/2
3/2
3/2
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.01
0.005
0.01
0.01
0.005
0.01
0.01
0.005
0.005
0.005
0.01
0.01
0.005
0.01
0.005
0.005
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.005
0.005
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.005
0.005
0.01
0.01
0.01
0.01
0.01
0.01
93TAU
93TAU
93TAU
93TAU
81HUM
93TAU
93TAU
93TAU
91REY
93TAU
93TAU
93TAU
93TAU
95GAL
93TAU
91REY
95GAL
93TAU
95GAL
95GAL
93TAU
93TAU
93TAU
95GAL
95GAL
93TAU
95GAL
93TAU
93TAU
95GAL
95GAL
95GAL
95GAL
93TAU
95GAL
95GAL
95GAL
93TAU
93TAU
95GAL
95GAL
95GAL
95GAL
93TAU
95GAL
95GAL
95GAL
95GAL
86DIR
95GAL
95GAL
95GAL
93TAU
93TAU
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
Classification
Configuration
2
3
5s 5p
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s5p 4
5s 2 5p 3
5s 2 5p 3
5s5p 4
5s 2 5p 3
5s5p 4
5s5p 4
5s 2 5p 3
5s 2 5p 3
5s 2 5p 3
5s5p 4
5s5p 4
5s 2 5p 3
5s5p 4
5s 2 5p 3
5s 2 5p 3
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s 2 5p 3
5s5p 4
5s5p 4
5s5p 4
5s 2 5p 3
5s 2 5p 3
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 3
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s 2 5p 3
5s5p 4
5s5p 4
5s5p 4
5s 2 5p 3
5s 2 5p 3
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s5p 4
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
ⴰ
D
Dⴰ
2 ⴰ
D
2 ⴰ
P
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2
D
2 ⴰ
D
2 ⴰ
P
2
D
4 ⴰ
S
4
P
4
P
2 ⴰ
P
2 ⴰ
D
2 ⴰ
D
4
P
4
P
4 ⴰ
S
4
P
2 ⴰ
P
2 ⴰ
D
4
P
2
D
4
P
4
P
2 ⴰ
P
4
P
4
P
4
P
4 ⴰ
S
2 ⴰ
P
4
P
4
F
2
D
2
D
2 ⴰ
P
4
P
4
P
4
P
4
P
2 ⴰ
D
2
D
4
P
4
P
2 ⴰ
P
2 ⴰ
D
4
P
2
D
4
P
4
P
4
P
4
P
2
J
5/2
3/2
3/2
1/2
3/2
3/2
3/2
5/2
1/2
5/2
1/2
5/2
3/2
3/2
3/2
3/2
5/2
3/2
3/2
5/2
1/2
3/2
5/2
5/2
5/2
3/2
5/2
1/2
5/2
5/2
3/2
3/2
5/2
3/2
5/2
1/2
5/2
3/2
3/2
3/2
5/2
5/2
3/2
3/2
3/2
5/2
1/2
5/2
3/2
3/2
3/2
3/2
1/2
3/2
3/2
5/2
3/2
5/2
5/2
1/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 1 S)6p
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)6p
5s5p 4
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s5p 4
2
5s 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s5p 4
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s5p 4
5s5p 4
2
5s 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
Term
4
F
P
4
F
2
S
2
D
4
F
2
P
4
F
4
D
4
F
4
D
2
P
2
S
2 ⴰ
P
2
D
4
D
2 ⴰ
P
4
P
2 ⴰ
D
2 ⴰ
F
2
P
2
D
2
D
4 ⴰ
P
2 ⴰ
G
4
P
2 ⴰ
P
2
P
2
D
4 ⴰ
D
2 ⴰ
P
2 ⴰ
F
4 ⴰ
S
2
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4
P
4
F
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2
P
4 ⴰ
P
2 ⴰ
D
2 ⴰ
P
4 ⴰ
F
4
P
2 ⴰ
D
4 ⴰ
S
4 ⴰ
P
2
D
4
P
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
4 ⴰ
D
4 ⴰ
F
4 ⴰ
S
2
SPECTRAL LINES OF XENON
853
Spectral lines of Xe IV—Continued
Observed
vacuum
wavelength
共Å兲
1091.16
1097.35
1102.95
1108.91
1113.291
1113.57
1114.44
1116.29
1117.09
1118.417
1125.35
1138.06
1139.44
1143.25
1144.16
1148.71
1150.26
1151.08
1153.51
1154.67
1155.65
1157.468
1159.046
1163.14
1174.70
1175.71
1177.37
1181.95
1188.61
1190.18
1190.57
1190.98
1192.13
1192.32
1200.81
1201.63
1202.69
1203.17
1205.07
1210.60
1211.30
1212.04
1217.257
1220.56
1222.53
1225.76
1226.42
1230.94
1231.263
1240.90
1242.42
1243.56
1254.22
1255.57
1259.57
1262.85
1263.76
1266.29
1271.21
1272.96
Observed
wave
number
共cm⫺1兲
91 645.6
91 128.6
90 665.9
90 178.6
89 823.8
89 801.3
89 731.2
89 582.5
89 518.3
89 412.1
88 861.2
87 868.8
87 762.4
87 469.9
87 400.4
87 054.2
86 936.9
86 874.9
86 691.9
86 604.8
86 531.4
86 395.5
86 277.9
85 974.2
85 128.1
85 055.0
84 935.1
84 605.9
84 131.9
84 020.9
83 993.4
83 964.5
83 883.5
83 870.1
83 277.1
83 220.3
83 146.9
83 113.8
82 982.7
82 603.7
82 555.9
82 505.5
82 151.9
81 929.6
81 797.6
81 582.0
81 538.1
81 238.7
81 217.4
80 586.7
80 488.1
80 414.3
79 730.8
79 645.1
79 392.2
79 186.0
79 128.9
78 970.9
78 665.2
78 557.1
Intensity
and
comment
3
12
4
13
70
3
5
8
1
35
11
6
2
4
9
4
5
10
6
3
8
65
2
1
5
10
10
5
9
4
2
3
3
6
9
3
8
6
1
6
9
5
55
5
9
2
6
9
25
8
5
11
3
5
6
5
3
8
7
7
Term
J
Uncertainty of
observed
wavelength
共Å兲
4 ⴰ
1/2
3/2
3/2
7/2
5/2
3/2
1/2
5/2
3/2
3/2
3/2
7/2
1/2
3/2
1/2
1/2
1/2
3/2
5/2
1/2
3/2
5/2
3/2
5/2
5/2
5/2
3/2
1/2
3/2
5/2
1/2
7/2
5/2
3/2
5/2
7/2
5/2
3/2
7/2
3/2
7/2
5/2
5/2
5/2
5/2
5/2
3/2
7/2
1/2
3/2
5/2
5/2
5/2
3/2
3/2
1/2
5/2
1/2
3/2
5/2
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
4
5s5p
5s5p 4
5s5p 4
5s5p 4
5s 2 5p 3
5s5p 4
5s5p 4
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 3
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 3
5s 2 5p 3
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 3
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s5p 4
5s5p 4
5s 2 5p 3
5s5p 4
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s5p 4
Term
4
P
P
2
D
4
P
2 ⴰ
P
4
P
4
P
4
P
4
F
2 ⴰ
D
4
P
4
P
2
P
4
P
4
P
2
P
4
P
4
D
2
D
4
D
4
P
2 ⴰ
D
2 ⴰ
P
2
P
2
D
4
P
4
P
4
P
2
D
4
F
2
P
2
F
2
P
4
P
2
D
4
F
2
D
2
P
4
F
4
P
4
P
4
F
2 ⴰ
D
4
F
4
P
2
D
4
P
2
D
2 ⴰ
P
2
D
4
P
4
F
2
D
4
F
4
D
4
P
4
F
2
D
2
D
2
D
4
J
1/2
5/2
5/2
5/2
3/2
3/2
3/2
3/2
3/2
5/2
3/2
5/2
3/2
1/2
1/2
3/2
3/2
5/2
3/2
3/2
1/2
3/2
3/2
3/2
3/2
3/2
3/2
1/2
3/2
3/2
1/2
7/2
3/2
3/2
3/2
5/2
5/2
3/2
9/2
1/2
5/2
5/2
5/2
3/2
3/2
5/2
1/2
5/2
1/2
5/2
5/2
5/2
5/2
5/2
1/2
3/2
5/2
3/2
5/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s5p 4
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s5p 4
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)4 f
5s5p 4
5s5p 4
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 S)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 S)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s5p 4
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s5p 4
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
P
Dⴰ
2 ⴰ
D
2 ⴰ
G
2
D
2 ⴰ
D
4 ⴰ
D
4 ⴰ
F
2 ⴰ
P
4
P
4 ⴰ
D
4 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
D
2 ⴰ
P
2 ⴰ
S
2 ⴰ
P
2 ⴰ
F
2 ⴰ
P
4 ⴰ
D
4
P
2
D
2 ⴰ
D
4 ⴰ
P
4 ⴰ
D
4 ⴰ
F
2 ⴰ
S
2 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
2 ⴰ
D
2 ⴰ
F
4 ⴰ
F
4 ⴰ
G
2 ⴰ
D
4
P
2 ⴰ
D
2 ⴰ
D
4 ⴰ
P
4 ⴰ
D
2 ⴰ
G
4
P
2 ⴰ
P
4 ⴰ
G
2 ⴰ
D
2 ⴰ
F
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
F
4 ⴰ
P
4 ⴰ
P
2 ⴰ
D
4
Source
of
line
95GAL
95GAL
95GAL
95GAL
93TAU
95GAL
95GAL
95GAL
95GAL
93TAU
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
93TAU
86DIR
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
93TAU
95GAL
95GAL
95GAL
95GAL
95GAL
93TAU
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
854
E. B. SALOMAN
Spectral lines of Xe IV—Continued
Observed
vacuum
wavelength
共Å兲
1280.54
1283.81
1290.72
1290.86
1298.46
1301.17
1321.27
1322.50
1322.87
1328.27
1331.81
1333.77
1336.98
1338.23
1338.57
1340.90
1344.74
1345.61
1350.82
1351.36
1351.53
1352.78
1353.65
1354.01
1355.74
1358.637
1361.15
1365.61
1367.78
1369.24
1378.42
1384.50
1385.48
1387.43
1390.22
1390.61
1390.84
1401.02
1403.064
1403.54
1406.23
1406.86
1407.76
1407.83
1407.83
1411.42
1414.34
1417.24
1422.14
1422.27
1422.86
1424.02
1427.48
1429.70
1430.02
1437.50
1437.50
1440.54
1444.79
1445.95
Observed
wave
number
共cm⫺1兲
78 092.1
77 893.1
77 476.1
77 467.7
77 014.3
76 853.9
75 684.8
75 614.4
75 593.2
75 285.9
75 085.8
74 975.4
74 795.4
74 725.6
74 706.6
74 576.8
74 363.8
74 315.7
74 029.1
73 999.5
73 990.2
73 921.8
73 874.3
73 854.7
73 760.5
73 603.2
73 467.3
73 227.3
73 111.2
73 033.2
72 546.8
72 228.2
72 177.2
72 075.7
71 931.1
71 910.9
71 899.0
71 376.6
71 272.6
71 248.4
71 112.1
71 080.3
71 034.8
71 031.3
71 031.3
70 850.6
70 704.4
70 559.7
70 316.6
70 310.1
70 281.0
70 223.7
70 053.5
69 944.7
69 929.1
69 565.2
69 565.2
69 418.4
69 214.2
69 158.7
Intensity
and
comment
3
1
10
5
2
3
3
5
7
3
3
3
8
2
9
8
7
3
8
3
6
5
2
2
9
10
8
9
1
4
9
1
9
8
6
4
2
3
10
1
6
9
9
8*
8*
9
5
5
7
7
5
1
4
3
12
3*
3*
4
5
2
Term
J
Uncertainty of
observed
wavelength
共Å兲
2 ⴰ
7/2
7/2
7/2
3/2
5/2
1/2
1/2
7/2
5/2
5/2
5/2
1/2
3/2
1/2
7/2
5/2
1/2
3/2
5/2
5/2
5/2
3/2
1/2
3/2
3/2
1/2
5/2
5/2
7/2
3/2
1/2
7/2
5/2
5/2
1/2
3/2
5/2
1/2
3/2
7/2
3/2
3/2
3/2
7/2
5/2
7/2
5/2
5/2
5/2
3/2
3/2
5/2
1/2
1/2
3/2
3/2
3/2
5/2
1/2
3/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
2
2 3
5s 5p ( P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s5p 4
5s5p 4
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 1 D)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 3
5s5p 4
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 3
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
4
F
F
2
D
2
D
2
D
4
P
4
D
4
F
2
P
4
F
2
F
4
D
2
D
2
D
2
F
2
D
4
F
2
F
2
P
4
F
2
F
2
D
4
D
2
D
2
S
2 ⴰ
P
2
D
4
P
4
D
2
P
2
P
2
F
2
P
4
F
2
D
2
F
2
F
4
P
2 ⴰ
P
4
F
2
P
4
F
4
D
4
D
2
D
2
D
4
D
4
F
4
D
2
D
4
P
4
F
2
S
4
P
2
D
2
P
4
F
4
D
2
D
4
F
2
J
7/2
5/2
5/2
3/2
3/2
1/2
1/2
7/2
3/2
7/2
5/2
1/2
3/2
3/2
7/2
3/2
3/2
5/2
3/2
7/2
7/2
5/2
3/2
3/2
1/2
3/2
5/2
3/2
7/2
3/2
1/2
7/2
3/2
3/2
3/2
5/2
7/2
3/2
3/2
9/2
3/2
3/2
1/2
5/2
5/2
5/2
3/2
5/2
5/2
5/2
3/2
3/2
1/2
1/2
3/2
3/2
5/2
3/2
3/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s5p 4
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 S)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 S)6p
5s5p 4
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)6p
F
F
4 ⴰ
D
2 ⴰ
D
4 ⴰ
D
4 ⴰ
D
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
4 ⴰ
F
2 ⴰ
P
2 ⴰ
D
4 ⴰ
P
2 ⴰ
F
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
P
4
P
4 ⴰ
D
4 ⴰ
G
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
4 ⴰ
P
2 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
4
P
2 ⴰ
F
4 ⴰ
P
2 ⴰ
P
2 ⴰ
D
2 ⴰ
F
4 ⴰ
F
4 ⴰ
F
2 ⴰ
D
4 ⴰ
P
2 ⴰ
D
4 ⴰ
D
2 ⴰ
P
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
4 ⴰ
F
2 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
P
4 ⴰ
P
2 ⴰ
Source
of
line
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
86DIR
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
86DIR
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
SPECTRAL LINES OF XENON
855
Spectral lines of Xe IV—Continued
Observed
vacuum
wavelength
共Å兲
1452.15
1455.42
1463.88
1465.73
1470.58
1478.33
1480.78
1482.45
1484.93
1486.05
1493.87
1496.65
1497.09
1497.19
1506.41
1506.72
1514.08
1517.03
1524.28
1526.46
1528.97
1530.98
1541.10
1541.90
1548.20
1549.62
1552.41
1553.58
1556.86
1558.11
1562.192
1562.73
1563.41
1566.08
1569.91
1571.64
1572.09
1572.52
1572.82
1575.34
1577.47
1577.77
1581.13
1583.85
1583.85
1589.78
1593.44
1597.43
1601.35
1602.19
1604.14
1619.57
1620.70
1625.33
1630.62
1635.94
1638.07
1641.99
1643.38
1643.83
Observed
wave
number
共cm⫺1兲
68 863.4
68 708.7
68 311.6
68 225.4
68 000.4
67 643.9
67 532.0
67 455.9
67 343.2
67 292.5
66 940.2
66 815.9
66 796.3
66 791.8
66 383.0
66 369.3
66 046.7
65 918.3
65 604.7
65 511.1
65 403.5
65 317.6
64 888.7
64 855.0
64 591.1
64 531.9
64 416.0
64 367.5
64 231.9
64 180.3
64 012.6
63 990.6
63 962.7
63 853.7
63 697.9
63 627.8
63 609.6
63 592.2
63 580.1
63 478.4
63 392.6
63 380.6
63 245.9
63 137.3
63 137.3
62 901.8
62 757.3
62 600.6
62 447.3
62 414.6
62 338.7
61 744.8
61 701.7
61 526.0
61 326.4
61 126.9
61 047.5
60 901.7
60 850.2
60 833.5
Intensity
and
comment
7
7
1
9
5
6
8
9
9
3
5
5
9
10
6
6
1
10
1
2
3
7
10
6
9
7
8
5
9
8
10
10
8
10
5
7
3
8
4
10
3
8
9
5*
5*
1
5
3
5
7
6
6
1
1
6
3
10
4
6
10
Term
J
Uncertainty of
observed
wavelength
共Å兲
Dⴰ
F
2 ⴰ
F
2 ⴰ
D
4 ⴰ
S
4 ⴰ
P
2 ⴰ
P
2 ⴰ
D
4 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
P
2 ⴰ
F
2 ⴰ
D
4 ⴰ
F
2 ⴰ
D
4 ⴰ
S
4 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
G
2 ⴰ
P
2 ⴰ
G
4 ⴰ
S
2 ⴰ
D
2 ⴰ
G
4 ⴰ
S
4 ⴰ
D
4
P
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
4 ⴰ
F
2 ⴰ
F
2 ⴰ
F
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
D
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
2 ⴰ
P
2 ⴰ
D
2 ⴰ
G
4 ⴰ
F
4 ⴰ
D
4 ⴰ
D
2 ⴰ
D
2 ⴰ
P
4 ⴰ
P
2 ⴰ
S
3/2
5/2
7/2
5/2
3/2
3/2
1/2
3/2
3/2
3/2
5/2
1/2
5/2
5/2
3/2
3/2
3/2
1/2
1/2
7/2
3/2
3/2
7/2
3/2
9/2
3/2
3/2
7/2
3/2
1/2
5/2
5/2
5/2
7/2
3/2
1/2
5/2
7/2
5/2
5/2
7/2
5/2
5/2
5/2
1/2
3/2
3/2
3/2
5/2
5/2
3/2
3/2
7/2
5/2
7/2
7/2
5/2
3/2
5/2
1/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
4
5s5p
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 3
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
Term
2
D
F
2
G
4
D
2
P
4
F
4
P
4
D
2
P
4
P
4
D
2
P
2
F
2
D
2
D
2
P
4
F
4
F
2
P
2
G
2
S
2
D
2
F
4
P
4
F
4
F
4
F
2
D
2
P
2
D
2 ⴰ
P
4
F
4
F
4
D
2
P
2
P
2
F
4
F
4
F
2
P
2
F
2
F
2
D
4
D
4
D
4
F
2
P
2
P
4
F
4
D
2
P
4
F
2
F
4
F
4
F
2
F
4
D
2
D
4
D
2
P
4
J
3/2
5/2
7/2
5/2
3/2
5/2
3/2
5/2
1/2
1/2
5/2
3/2
5/2
3/2
5/2
3/2
3/2
3/2
1/2
9/2
1/2
5/2
5/2
5/2
7/2
5/2
3/2
5/2
1/2
3/2
3/2
5/2
3/2
7/2
3/2
3/2
7/2
7/2
7/2
3/2
5/2
5/2
5/2
7/2
3/2
5/2
3/2
1/2
5/2
3/2
3/2
3/2
7/2
3/2
7/2
5/2
7/2
3/2
3/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 S)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 1 S)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s5p 4
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
4
2 ⴰ
Source
of
line
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
86DIR
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
856
E. B. SALOMAN
Spectral lines of Xe IV—Continued
Observed
vacuum
wavelength
共Å兲
1644.63
1654.22
1660.32
1660.46
1661.00
1661.29
1664.59
1666.37
1668.43
1668.65
1668.90
1670.60
1670.70
1671.41
1673.30
1680.17
1686.65
1688.44
1693.40
1693.92
1694.95
1698.36
1698.89
1704.68
1706.29
1709.30
1713.15
1714.18
1717.52
1723.30
1725.92
1726.11
1731.15
1742.89
1744.64
1746.17
1747.78
1750.73
1752.40
1755.61
1758.16
1762.29
1769.29
1783.00
1788.21
1791.73
1792.32
1802.41
1802.61
1803.26
1804.90
1806.29
1807.55
1819.49
1821.48
1824.12
1824.76
1828.39
1828.77
1834.85
Observed
wave
number
共cm⫺1兲
60 803.9
60 451.5
60 229.4
60 224.3
60 204.7
60 194.2
60 074.9
60 010.7
59 936.6
59 928.7
59 919.7
59 858.7
59 855.2
59 829.7
59 762.1
59 517.8
59 289.1
59 226.3
59 052.8
59 034.7
58 998.8
58 880.3
58 862.0
58 662.0
58 606.7
58 503.5
58 372.0
58 336.9
58 223.5
58 028.2
57 940.1
57 933.7
57 765.1
57 376.0
57 318.4
57 268.2
57 215.4
57 119.0
57 064.6
56 960.3
56 877.6
56 744.3
56 519.8
56 085.2
55 921.8
55 812.0
55 793.6
55 481.3
55 475.1
55 455.1
55 404.7
55 362.1
55 323.5
54 960.5
54 900.4
54 821.0
54 801.7
54 692.9
54 681.6
54 500.4
Intensity
and
comment
3
6
5
7
1
6
3
6
5
1
3
3
6
5
7
11
1
6
5
1
7
11
10
12
11
9
15
12
12
10
12
12
13
12
15
2
9
12
1
14
12
10
10
12
10
11
13
3
15
15
10
6
1
12
10
12
5
12
10
1
Term
J
Uncertainty of
observed
wavelength
共Å兲
Dⴰ
Gⴰ
2 ⴰ
D
2 ⴰ
G
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
4 ⴰ
F
2 ⴰ
F
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
P
4 ⴰ
F
2 ⴰ
F
2 ⴰ
P
4 ⴰ
D
2 ⴰ
F
2 ⴰ
F
4 ⴰ
P
2 ⴰ
F
2 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
P
4 ⴰ
P
2 ⴰ
D
4 ⴰ
G
2 ⴰ
G
4 ⴰ
D
4 ⴰ
P
4 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
S
4 ⴰ
D
4 ⴰ
F
4 ⴰ
G
2 ⴰ
F
2 ⴰ
G
4 ⴰ
S
4 ⴰ
D
4 ⴰ
P
4 ⴰ
D
2 ⴰ
D
4 ⴰ
P
2 ⴰ
D
4 ⴰ
F
2 ⴰ
P
2 ⴰ
F
2 ⴰ
D
4 ⴰ
S
2 ⴰ
P
4 ⴰ
P
4 ⴰ
F
4 ⴰ
F
3/2
9/2
3/2
9/2
7/2
5/2
7/2
5/2
5/2
3/2
1/2
1/2
3/2
7/2
5/2
3/2
3/2
7/2
7/2
3/2
5/2
1/2
5/2
5/2
1/2
3/2
5/2
5/2
5/2
7/2
7/2
3/2
3/2
3/2
5/2
5/2
1/2
5/2
1/2
7/2
3/2
7/2
5/2
9/2
3/2
3/2
1/2
5/2
5/2
3/2
5/2
3/2
3/2
5/2
3/2
3/2
1/2
1/2
5/2
7/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
2
2 3
5s 5p ( P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
4
F
F
4
F
4
F
2
F
2
F
4
P
4
F
4
D
2
P
2
P
2
P
4
D
4
F
4
D
2
F
4
F
4
F
2
G
4
D
4
D
4
F
4
F
2
F
2
S
2
P
4
D
2
G
2
D
4
D
2
F
4
D
2
P
4
D
4
F
4
P
4
P
2
F
2
P
4
F
4
F
2
D
4
D
4
F
4
D
4
F
4
D
4
F
2
F
4
D
2
D
4
F
2
S
2
G
2
F
4
D
4
P
4
D
2
F
2
F
4
J
3/2
7/2
5/2
9/2
7/2
7/2
5/2
5/2
5/2
1/2
1/2
1/2
3/2
5/2
7/2
5/2
5/2
9/2
7/2
1/2
3/2
3/2
7/2
5/2
1/2
3/2
5/2
7/2
3/2
5/2
7/2
3/2
3/2
5/2
7/2
5/2
1/2
5/2
1/2
9/2
3/2
5/2
5/2
9/2
1/2
3/2
1/2
5/2
7/2
5/2
3/2
5/2
1/2
7/2
5/2
3/2
3/2
3/2
5/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
4
2
Source
of
line
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
SPECTRAL LINES OF XENON
857
Spectral lines of Xe IV—Continued
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
1841.73
1841.91
1842.31
1842.77
1848.70
1851.99
1859.52
1860.82
1872.55
1874.55
1880.05
1883.89
1891.24
1895.48
1896.21
1910.50
1914.81
1917.95
1922.00
1937.27
1937.76
1939.90
1941.94
1948.79
1950.21
1953.41
1955.86
1958.74
1959.37
1965.81
1966.61
1971.76
1971.93
1973.23
1979.48
1982.23
1985.97
1986.28
1988.10
1988.46
1989.73
1990.43
1993.55
1998.66
2000.00
54 296.8
54 291.5
54 279.7
54 266.1
54 092.1
53 996.0
53 777.3
53 739.7
53 403.1
53 346.1
53 190.1
53 081.7
52 875.4
52 757.1
52 736.8
52 342.3
52 224.5
52 139.0
52 029.1
51 619.0
51 606.0
51 549.0
51 494.9
51 313.9
51 276.5
51 192.5
51 128.4
51 053.2
51 036.8
50 869.6
50 848.9
50 716.1
50 711.7
50 678.3
50 518.3
50 448.2
50 353.2
50 345.4
50 299.3
50 290.2
50 258.1
50 240.4
50 161.8
50 033.5
50 000.0
11
12
6
10
11
2
10
11
31
4
3
12
6
12
7
12
8
4
6
5
4
5
3
4
5
10
9
5
6
1
9
10
11
1
11
3
10
3
9
1
9
1
10
7
1
Observed
air
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
2000.36
2014.27
2026.06
2030.81
2041.08
2041.50
2046.16
2050.42
2054.44
2060.70
49 974.8
49 629.7
49 341.0
49 225.6
48 977.9
48 967.9
48 856.4
48 754.9
48 659.5
48 511.7
4
6
11
1
9
8
10
9
9
4
Term
J
Uncertainty of
observed
wavelength
共Å兲
Dⴰ
Dⴰ
2 ⴰ
D
4 ⴰ
D
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
2 ⴰ
D
4 ⴰ
P
2 ⴰ
G
2 ⴰ
D
4 ⴰ
D
2 ⴰ
P
2 ⴰ
F
4 ⴰ
D
4 ⴰ
S
2 ⴰ
D
2 ⴰ
P
2 ⴰ
F
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
4 ⴰ
F
4 ⴰ
F
2 ⴰ
P
4 ⴰ
P
4 ⴰ
D
2 ⴰ
F
4 ⴰ
D
2 ⴰ
D
2 ⴰ
G
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
D
4 ⴰ
D
2 ⴰ
G
2 ⴰ
F
4 ⴰ
F
4 ⴰ
S
4 ⴰ
D
2 ⴰ
P
4 ⴰ
P
4 ⴰ
F
2 ⴰ
D
3/2
3/2
5/2
7/2
3/2
3/2
7/2
5/2
3/2
7/2
3/2
1/2
1/2
5/2
5/2
3/2
5/2
1/2
5/2
3/2
3/2
1/2
5/2
7/2
3/2
5/2
1/2
7/2
7/2
3/2
7/2
7/2
3/2
3/2
3/2
1/2
9/2
5/2
5/2
3/2
5/2
1/2
1/2
3/2
5/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
Term
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2 ⴰ
7/2
5/2
5/2
7/2
5/2
3/2
3/2
1/2
3/2
5/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
Classification
Configuration
2
2 3
5s 5p ( P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
Term
4
F
D
4
D
4
D
4
P
2
P
2
G
4
F
2
S
4
F
4
D
2
P
2
P
4
D
4
D
4
D
4
F
4
P
2
D
4
D
2
P
4
D
2
F
2
F
2
P
4
D
4
F
2
F
4
F
4
P
4
D
2
D
4
D
4
D
4
D
4
D
4
D
4
P
4
D
2
S
4
D
2
P
2
S
2
F
2
D
4
J
5/2
1/2
3/2
5/2
5/2
1/2
9/2
3/2
1/2
5/2
3/2
3/2
1/2
7/2
3/2
5/2
5/2
1/2
3/2
1/2
1/2
1/2
7/2
7/2
3/2
7/2
3/2
7/2
5/2
1/2
7/2
5/2
5/2
1/2
3/2
3/2
7/2
3/2
3/2
1/2
5/2
3/2
1/2
5/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 S)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
4
2
Classification
Configuration
2
2 1
5s 5p ( D)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)6s
Term
2
D
P
4
D
4
P
4
P
2
F
4
P
4
D
2
S
4
P
2
J
5/2
3/2
7/2
5/2
5/2
5/2
1/2
1/2
1/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
2
2 1
5s 5p ( S)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
F
F
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
4 ⴰ
D
2 ⴰ
P
2 ⴰ
S
2 ⴰ
D
2 ⴰ
D
2 ⴰ
Source
of
line
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
858
E. B. SALOMAN
Spectral lines of Xe IV—Continued
Observed
air
wavelength
共Å兲
2063.05
2063.05
2081.93
2084.60
2086.63
2086.63
2090.47
2094.04
2097.78
2098.40
2108.42
2118.45
2118.58
2121.38
2122.50
2123.05
2123.82
2128.48
2129.96
2131.71
2133.34
2144.01
2150.91
2153.64
2154.90
2170.99
2173.82
2185.26
2186.41
2187.09
2188.14
2189.83
2191.24
2194.12
2208.56
2212.08
2213.13
2219.22
2220.34
2229.91
2240.12
2240.34
2242.15
2244.50
2244.50
2246.64
2274.13
2279.76
2281.22
2283.96
2287.13
2287.91
2288.90
2289.96
2306.19
2306.58
2308.31
2311.42
2311.48
2314.40
Observed
wave
number
共cm⫺1兲
48 456.4
48 456.4
48 017.1
47 955.6
47 908.9
47 908.9
47 820.9
47 739.4
47 654.3
47 640.2
47 413.9
47 189.4
47 186.5
47 124.2
47 099.4
47 087.2
47 070.1
46 967.1
46 934.4
46 895.9
46 860.1
46 626.9
46 477.3
46 418.4
46 391.3
46 047.5
45 987.6
45 746.8
45 722.8
45 708.6
45 686.6
45 651.4
45 622.0
45 562.1
45 264.3
45 192.2
45 170.8
45 046.9
45 024.1
44 830.9
44 626.61
44 622.23
44 586.21
44 539.54
44 539.54
44 497.11
43 959.28
43 850.73
43 822.66
43 770.10
43 709.44
43 694.54
43 675.64
43 655.42
43 348.22
43 340.89
43 308.41
43 250.15
43 249.03
43 194.46
Intensity
and
comment
1*
1*
11
9
9*
9*
7
1
6
12
12
11
11
8
9
9
6
1
1
5
10
13
8
9
12
3
9
10
11
11
9
11
3
4
7
3
9
3
12
8
10
9
8
10*
10*
1
5
1
7
9
5
9
12
9
1
10
7
3
13
2
Term
J
Uncertainty of
observed
wavelength
共Å兲
2 ⴰ
3/2
3/2
7/2
5/2
5/2
1/2
5/2
3/2
1/2
7/2
5/2
1/2
5/2
5/2
3/2
7/2
7/2
5/2
3/2
5/2
1/2
9/2
1/2
3/2
5/2
7/2
3/2
1/2
7/2
7/2
3/2
3/2
5/2
5/2
1/2
3/2
5/2
3/2
5/2
7/2
3/2
5/2
3/2
5/2
1/2
3/2
1/2
7/2
3/2
5/2
5/2
1/2
7/2
5/2
1/2
5/2
7/2
7/2
3/2
3/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
2
2 3
5s 5p ( P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
F
P
2
F
2
G
2
D
4
P
4
D
2
P
4
D
4
D
4
P
2
P
4
P
2
P
4
D
4
D
4
P
2
F
4
P
2
F
2
P
4
F
4
P
4
P
2
G
2
G
2
S
2
D
4
F
2
F
4
D
4
D
4
P
4
P
2
D
2
D
4
F
2
S
2
D
2
F
4
P
4
D
4
D
2
G
2
S
4
P
2
D
4
F
4
P
4
P
2
F
4
P
2
F
4
F
2
P
4
P
4
P
2
G
2
P
4
P
4
J
5/2
3/2
5/2
7/2
5/2
3/2
5/2
3/2
3/2
5/2
5/2
1/2
3/2
3/2
5/2
7/2
5/2
7/2
1/2
5/2
3/2
7/2
1/2
5/2
7/2
7/2
1/2
3/2
5/2
5/2
1/2
3/2
3/2
5/2
3/2
3/2
3/2
1/2
3/2
7/2
3/2
7/2
3/2
7/2
1/2
5/2
3/2
9/2
1/2
3/2
7/2
1/2
5/2
5/2
3/2
3/2
5/2
9/2
1/2
1/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 1
5s 5p ( D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
P
Dⴰ
2 ⴰ
G
2 ⴰ
F
2 ⴰ
D
2 ⴰ
P
4 ⴰ
F
2 ⴰ
D
2 ⴰ
S
4 ⴰ
F
4 ⴰ
P
2 ⴰ
P
2 ⴰ
F
4 ⴰ
G
4 ⴰ
D
4 ⴰ
D
2 ⴰ
G
4 ⴰ
D
4 ⴰ
P
2 ⴰ
D
2 ⴰ
P
4 ⴰ
G
2 ⴰ
P
2 ⴰ
P
4 ⴰ
P
2 ⴰ
G
2 ⴰ
D
2 ⴰ
P
4 ⴰ
G
4 ⴰ
D
4 ⴰ
D
4 ⴰ
F
4 ⴰ
P
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
4 ⴰ
G
4 ⴰ
D
2 ⴰ
F
2 ⴰ
G
2 ⴰ
P
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
2 ⴰ
P
4 ⴰ
P
2 ⴰ
P
2 ⴰ
G
4 ⴰ
S
2 ⴰ
F
2 ⴰ
D
4 ⴰ
P
2 ⴰ
F
4 ⴰ
G
2 ⴰ
P
2 ⴰ
F
4 ⴰ
D
2 ⴰ
G
2 ⴰ
D
2 ⴰ
P
2
Source
of
line
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
SPECTRAL LINES OF XENON
859
Spectral lines of Xe IV—Continued
Observed
air
wavelength
共Å兲
2315.56
2318.22
2320.60
2327.05
2331.40
2338.29
2340.92
2345.28
2351.44
2355.44
2364.13
2365.55
2369.38
2372.47
2372.86
2374.15
2384.37
2391.96
2394.31
2415.61
2422.12
2428.97
2431.07
2433.59
2438.08
2446.08
2447.64
2447.64
2450.90
2451.37
2459.75
2462.66
2465.75
2470.74
2474.82
2493.05
2495.10
2497.02
2498.06
2503.93
2505.33
2514.69
2524.92
2525.51
2529.58
2534.18
2559.94
2564.13
2572.93
2573.36
2589.03
2591.24
2594.83
2608.33
2619.70
2621.78
2626.98
2633.39
2650.91
2651.58
Observed
wave
number
共cm⫺1兲
43 172.83
43 123.29
43 079.07
42 959.68
42 879.53
42 753.19
42 705.16
42 625.78
42 514.12
42 441.93
42 285.93
42 260.55
42 192.25
42 137.30
42 130.37
42 107.48
41 927.01
41 793.98
41 752.97
41 384.83
41 273.61
41 157.22
41 121.67
41 079.09
41 003.45
40 869.35
40 843.31
40 843.31
40 788.99
40 781.17
40 642.24
40 594.22
40 543.35
40 461.47
40 394.77
40 099.41
40 066.47
40 035.67
40 019.00
39 925.19
39 902.88
39 754.37
39 593.31
39 584.06
39 520.37
39 448.64
39 051.71
38 987.90
38 854.56
38 848.06
38 612.95
38 580.02
38 526.65
38 327.26
38 160.92
38 130.65
38 055.17
37 962.55
37 711.67
37 702.14
Intensity
and
comment
1
1
1
5
0
6
11
6
6
7
4
4
1
6
3
3
2
4
5
9
9
10
6
9
2
8
9*
9*
8
9
3
5
5
3
9
9
11
6
2
6
3
6
1
3
3
1
10
12
10
2
1
6
1
2
11
11
9
5
3
13
Term
J
Uncertainty of
observed
wavelength
共Å兲
4 ⴰ
3/2
1/2
5/2
5/2
5/2
9/2
3/2
5/2
5/2
1/2
7/2
9/2
3/2
1/2
1/2
3/2
3/2
7/2
7/2
3/2
3/2
7/2
3/2
5/2
1/2
5/2
5/2
3/2
5/2
3/2
5/2
7/2
3/2
7/2
7/2
3/2
3/2
5/2
3/2
5/2
1/2
3/2
3/2
5/2
3/2
1/2
5/2
5/2
3/2
7/2
9/2
3/2
5/2
5/2
3/2
5/2
5/2
3/2
7/2
5/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
2
2 3
5s 5p ( P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
Term
4
D
S
4
D
2
F
2
D
2
G
4
P
2
P
4
D
2
D
2
G
4
F
4
P
2
P
2
P
4
D
2
P
2
F
2
G
4
P
4
P
4
D
2
S
2
F
4
D
2
F
4
P
2
P
2
D
4
P
4
D
4
F
2
D
4
D
2
F
2
F
2
P
4
D
2
D
4
P
4
D
4
P
4
P
2
F
4
P
4
P
4
P
2
F
2
P
4
D
2
G
4
P
4
F
2
F
4
P
4
P
2
D
4
P
2
D
2
F
2
J
5/2
1/2
7/2
5/2
3/2
9/2
3/2
3/2
3/2
3/2
7/2
9/2
1/2
1/2
1/2
5/2
3/2
7/2
9/2
5/2
1/2
5/2
1/2
7/2
1/2
5/2
5/2
1/2
3/2
3/2
7/2
7/2
3/2
7/2
5/2
5/2
3/2
5/2
3/2
3/2
3/2
5/2
3/2
5/2
1/2
1/2
3/2
7/2
1/2
5/2
9/2
1/2
7/2
5/2
1/2
5/2
5/2
3/2
5/2
7/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 S)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
F
S
4 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
G
4 ⴰ
P
2 ⴰ
F
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
4 ⴰ
G
2 ⴰ
D
2 ⴰ
P
2 ⴰ
P
4 ⴰ
D
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
4 ⴰ
S
4 ⴰ
P
2 ⴰ
G
4 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
4 ⴰ
F
4 ⴰ
G
4 ⴰ
P
4 ⴰ
F
4 ⴰ
G
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
D
2 ⴰ
F
4 ⴰ
D
2 ⴰ
D
4 ⴰ
S
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
G
4 ⴰ
D
4 ⴰ
G
4 ⴰ
G
4 ⴰ
S
2 ⴰ
F
4 ⴰ
P
2 ⴰ
D
2 ⴰ
G
2 ⴰ
F
2 ⴰ
Source
of
line
95GAL
95GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
860
E. B. SALOMAN
Spectral lines of Xe IV—Continued
Observed
air
wavelength
共Å兲
2652.17
2665.13
2670.79
2679.99
2691.74
2695.87
2697.51
2706.73
2709.97
2711.90
2725.27
2733.92
2744.08
2759.66
2759.86
2761.35
2767.58
2792.47
2796.58
2803.46
2806.65
2810.46
2824.10
2828.31
2838.47
2845.06
2850.50
2864.15
2879.79
2898.48
2900.44
2910.37
2929.25
2952.61
2954.69
2955.89
2958.72
2967.12
2970.94
2976.44
2977.99
3014.02
3017.72
3024.43
3034.22
3036.97
3042.67
3044.26
3068.57
3074.48
3076.16
3079.72
3083.05
3086.70
3103.23
3105.62
3121.57
3125.76
3142.87
3156.77
Observed
wave
number
共cm⫺1兲
37 693.75
37 510.47
37 430.98
37 302.49
37 139.67
37 082.77
37 060.23
36 934.00
36 889.84
36 863.59
36 682.75
36 566.69
36 431.31
36 225.64
36 223.02
36 203.47
36 121.98
35 800.03
35 747.42
35 659.70
35 619.17
35 570.89
35 399.09
35 346.40
35 219.89
35 138.31
35 071.26
34 904.12
34 714.57
34 490.73
34 467.43
34 349.83
34 128.45
33 858.45
33 834.61
33 820.88
33 788.53
33 692.88
33 649.56
33 587.38
33 569.90
33 168.62
33 127.95
33 054.46
32 947.81
32 917.98
32 856.31
32 839.15
32 579.00
32 516.38
32 498.62
32 461.06
32 426.00
32 387.65
32 215.14
32 190.35
32 025.88
31 982.95
31 808.84
31 668.78
Intensity
and
comment
10
10
5
11
4
9
13
10
1
1
13
2
10
6
0
1
15
3
10
2
11
10
11
1
11
10
10
10
12
10
13
13
9
3
15
12
9
2
1
14
6
1
6
6
15
12
1
16
9
2
1
14
6
3
10
11
3
13
1
1
Term
J
Uncertainty of
observed
wavelength
共Å兲
Dⴰ
P
4 ⴰ
S
4 ⴰ
P
2 ⴰ
D
2 ⴰ
D
2 ⴰ
P
4 ⴰ
P
2 ⴰ
D
4 ⴰ
F
4 ⴰ
F
4 ⴰ
P
2 ⴰ
D
2 ⴰ
P
2 ⴰ
G
2 ⴰ
F
2 ⴰ
P
2 ⴰ
D
4 ⴰ
S
4 ⴰ
F
4 ⴰ
P
2 ⴰ
P
2 ⴰ
F
4 ⴰ
D
4 ⴰ
D
4 ⴰ
P
4 ⴰ
F
4 ⴰ
P
2 ⴰ
F
2 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
P
2 ⴰ
D
4 ⴰ
P
4 ⴰ
S
4 ⴰ
D
4 ⴰ
P
4 ⴰ
P
4 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
F
4 ⴰ
D
4 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
F
2 ⴰ
P
2 ⴰ
F
4 ⴰ
D
2 ⴰ
S
4 ⴰ
G
4 ⴰ
F
2 ⴰ
D
4 ⴰ
S
2 ⴰ
F
2 ⴰ
P
4 ⴰ
D
3/2
1/2
3/2
1/2
3/2
3/2
3/2
3/2
5/2
5/2
7/2
5/2
5/2
3/2
7/2
5/2
1/2
3/2
3/2
7/2
1/2
3/2
5/2
5/2
1/2
3/2
5/2
1/2
5/2
5/2
3/2
3/2
3/2
3/2
5/2
3/2
1/2
1/2
3/2
3/2
3/2
3/2
3/2
5/2
5/2
3/2
5/2
3/2
5/2
1/2
5/2
7/2
1/2
9/2
3/2
3/2
3/2
5/2
1/2
7/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
2
2 3
5s 5p ( P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
2
5s 5p 2 ( 3 P)6s
5s5p 4
2
5s 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
F
P
2
D
2
D
2
D
4
P
2
D
2
P
2
D
4
P
4
P
4
P
2
P
2
S
4
P
2
D
2
P
2
D
4
P
2
G
4
P
4
P
2
P
2
D
4
P
2
D
4
P
2
P
4
P
2
P
2
D
4
P
2
D
4
P
2
P
2
P
4
P
2
P
4
P
4
P
2
P
2
P
2
D
2
P
2
P
4
P
4
D
2
P
2
F
2
S
2
D
4
P
4
P
4
D
4
P
2
P
2
D
2
P
2
S
4
D
2
J
5/2
3/2
3/2
3/2
5/2
5/2
5/2
1/2
3/2
5/2
5/2
5/2
3/2
1/2
5/2
5/2
3/2
3/2
3/2
7/2
3/2
5/2
3/2
3/2
3/2
5/2
3/2
3/2
5/2
3/2
5/2
3/2
3/2
1/2
3/2
1/2
1/2
1/2
5/2
1/2
3/2
1/2
3/2
3/2
3/2
1/2
7/2
3/2
5/2
1/2
3/2
5/2
3/2
7/2
5/2
1/2
5/2
3/2
1/2
7/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 1
5s 5p ( D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
2
2 ⴰ
Source
of
line
95GAL
95GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
95GAL
81GAL
95GAL
81GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
81GAL
SPECTRAL LINES OF XENON
861
Spectral lines of Xe IV—Continued
Observed
air
wavelength
共Å兲
3175.25
3179.27
3184.58
3199.32
3201.55
3207.79
3209.40
3223.36
3225.49
3233.41
3239.30
3253.25
3256.66
3259.46
3260.67
3273.74
3276.59
3277.28
3285.98
3289.03
3303.32
3310.40
3322.19
3332.83
3338.86
3339.19
3355.96
3364.68
3367.50
3380.09
3386.75
3394.78
3426.42
3428.03
3431.54
3437.52
3450.74
3458.74
3472.48
3491.55
3497.89
3498.19
3513.56
3522.36
3537.41
3553.26
3556.49
3557.96
3560.36
3569.53
3584.50
3587.29
3587.67
3595.37
3606.05
3610.74
3612.01
3658.80
3663.88
3664.46
Observed
wave
number
共cm⫺1兲
31 484.47
31 444.67
31 392.24
31 247.61
31 225.85
31 165.11
31 149.47
31 014.57
30 994.09
30 918.18
30 861.96
30 729.63
30 697.45
30 671.08
30 659.70
30 537.30
30 510.74
30 504.32
30 423.56
30 395.35
30 263.86
30 199.14
30 091.97
29 995.90
29 941.73
29 938.77
29 789.17
29 711.97
29 687.09
29 576.52
29 518.36
29 448.54
29 176.61
29 162.91
29 133.08
29 082.40
28 970.99
28 903.98
28 789.62
28 632.38
28 580.49
28 578.04
28 453.02
28 381.94
28 261.19
28 135.13
28 109.58
28 097.97
28 079.03
28 006.90
27 889.93
27 868.24
27 865.29
27 805.62
27 723.27
27 687.26
27 677.52
27 323.58
27 285.70
27 281.38
Intensity
and
comment
17
15
14
1
10
2
13
2
9
1
16
13
9
12
1
13
1
10
15
9
8
16
4
18
1
1
11
4
5
10
14
6
5
5
13
9
4
17
8
2
15
6
12
1
12
6
12
9
1
4
1
9
11
1
3
2
5
5
13
10
Term
J
Uncertainty of
observed
wavelength
共Å兲
Dⴰ
Dⴰ
2 ⴰ
P
4 ⴰ
P
4 ⴰ
F
2 ⴰ
D
4 ⴰ
D
4 ⴰ
P
2 ⴰ
S
4 ⴰ
P
2 ⴰ
D
2 ⴰ
D
2 ⴰ
F
2 ⴰ
G
4 ⴰ
D
4 ⴰ
S
4 ⴰ
F
4 ⴰ
D
4 ⴰ
F
2 ⴰ
D
2 ⴰ
S
2 ⴰ
G
2 ⴰ
D
2 ⴰ
D
4 ⴰ
D
2 ⴰ
P
4 ⴰ
D
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
G
2 ⴰ
F
4 ⴰ
P
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
G
2 ⴰ
D
2 ⴰ
S
4 ⴰ
D
4 ⴰ
D
4 ⴰ
D
4 ⴰ
F
4 ⴰ
S
2 ⴰ
P
4 ⴰ
P
2 ⴰ
F
4 ⴰ
P
4 ⴰ
D
2 ⴰ
D
2 ⴰ
S
4 ⴰ
S
2 ⴰ
D
2 ⴰ
D
4 ⴰ
P
4 ⴰ
F
2 ⴰ
D
2 ⴰ
F
5/2
3/2
1/2
3/2
5/2
3/2
3/2
5/2
1/2
3/2
5/2
3/2
5/2
7/2
1/2
3/2
5/2
3/2
3/2
3/2
1/2
7/2
3/2
5/2
5/2
3/2
3/2
1/2
7/2
5/2
3/2
1/2
7/2
5/2
5/2
5/2
5/2
1/2
7/2
5/2
1/2
3/2
5/2
5/2
3/2
3/2
3/2
3/2
5/2
1/2
7/2
3/2
1/2
3/2
3/2
3/2
1/2
7/2
5/2
5/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
2
2 3
5s 5p ( P)5d
5s 2 5p 2 ( 3 P)6s
5s5p 4
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)6s
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s 2 5p 2 ( 3 P)6s
5s5p 4
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
2
5s 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
Term
2
D
P
2
P
2
P
4
P
2
P
4
P
2
F
4
P
2
P
2
D
2
P
2
F
2
F
2
P
4
P
2
P
4
P
4
P
2
D
2
D
4
P
2
D
4
P
2
D
2
D
2
P
2
D
2
D
2
D
2
P
2
P
2
G
2
F
2
F
2
D
2
D
4
P
2
F
2
D
4
P
2
P
4
P
2
D
2
D
2
P
2
P
2
F
2
D
2
P
4
P
2
S
2
P
2
P
2
D
2
D
2
P
2
D
4
P
2
F
4
J
5/2
3/2
1/2
1/2
3/2
3/2
5/2
5/2
1/2
3/2
5/2
3/2
7/2
5/2
3/2
5/2
3/2
3/2
3/2
5/2
3/2
5/2
5/2
5/2
5/2
3/2
3/2
3/2
5/2
5/2
1/2
1/2
7/2
5/2
7/2
3/2
5/2
1/2
7/2
3/2
3/2
1/2
5/2
3/2
3/2
1/2
1/2
5/2
3/2
1/2
5/2
1/2
3/2
3/2
5/2
5/2
3/2
5/2
3/2
7/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
2
2
Source
of
line
95GAL
95GAL
95GAL
95GAL
95GAL
81GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
81GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
95GAL
95GAL
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
862
E. B. SALOMAN
Spectral lines of Xe IV—Continued
Observed
air
wavelength
共Å兲
3666.75
3676.01
3719.10
3720.91
3732.66
3750.71
3761.44
3793.30
3810.67
3817.38
3817.38
3837.71
3842.80
3879.17
3886.72
3905.93
3918.57
3958.35
3979.21
3994.42
4001.18
4014.09
4032.91
4034.85
4051.64
4055.43
4082.90
4089.81
4207.08
4253.57
4255.92
4264.96
4278.51
4280.55
4301.10
4332.08
4356.26
4365.33
4373.88
4380.85
4399.17
4428.26
4429.10
4430.85
4587.78
4638.29
4652.47
4678.60
4744.55
4767.76
4797.05
4799.71
4833.57
4843.90
4852.39
4868.81
4874.67
4885.17
4904.69
4924.24
Observed
wave
number
共cm⫺1兲
27 264.34
27 195.66
26 880.58
26 867.50
26 782.93
26 654.04
26 578.01
26 354.79
26 234.66
26 188.54
26 188.54
26 049.82
26 015.31
25 771.41
25 721.35
25 594.85
25 512.29
25 255.90
25 123.51
25 027.85
24 985.56
24 905.21
24 788.99
24 777.07
24 674.39
24 651.33
24 485.48
24 444.11
23 762.76
23 503.05
23 490.07
23 440.28
23 366.05
23 354.91
23 243.33
23 077.11
22 949.02
22 901.34
22 856.57
22 820.21
22 725.18
22 575.89
22 571.61
22 562.70
21 790.93
21 553.63
21 487.94
21 367.93
21 070.92
20 968.35
20 840.32
20 828.77
20 682.86
20 638.76
20 602.65
20 533.16
20 508.48
20 464.4
20 383.0
20 302.03
Intensity
and
comment
16
6
3
1b
12
13
4
6
3
6*
6*
10
1
9
11
13
11
13
12
13
12
10
9
6
12
5
11
9
1
11
15
9
0
12
0h
7
15
16
1
10
6
10
3
13
8
3
6
5
6
10
5
1
10
5
6
3
1
2
3
5
Term
J
Uncertainty of
observed
wavelength
共Å兲
Dⴰ
Dⴰ
2 ⴰ
D
4 ⴰ
D
4 ⴰ
D
2 ⴰ
S
4 ⴰ
F
4 ⴰ
G
2 ⴰ
D
4 ⴰ
P
2 ⴰ
D
2 ⴰ
F
4 ⴰ
F
2 ⴰ
D
4 ⴰ
D
2 ⴰ
F
4 ⴰ
D
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
4 ⴰ
S
4 ⴰ
S
4 ⴰ
G
4 ⴰ
P
4 ⴰ
D
4 ⴰ
F
4 ⴰ
P
2 ⴰ
D
4 ⴰ
D
2 ⴰ
D
2 ⴰ
P
2 ⴰ
D
2 ⴰ
D
2 ⴰ
D
4 ⴰ
D
4 ⴰ
S
4 ⴰ
P
4 ⴰ
D
4 ⴰ
F
4 ⴰ
D
2 ⴰ
D
4 ⴰ
G
2 ⴰ
F
2 ⴰ
D
4 ⴰ
D
4 ⴰ
G
4 ⴰ
D
4 ⴰ
F
2 ⴰ
P
2 ⴰ
S
2 ⴰ
G
4 ⴰ
D
2 ⴰ
D
2 ⴰ
S
2 ⴰ
D
4 ⴰ
D
4 ⴰ
G
4 ⴰ
F
4 ⴰ
F
4 ⴰ
D
5/2
3/2
5/2
7/2
3/2
1/2
3/2
7/2
3/2
3/2
3/2
5/2
5/2
3/2
5/2
5/2
3/2
5/2
5/2
7/2
3/2
3/2
9/2
1/2
1/2
3/2
5/2
5/2
1/2
3/2
3/2
5/2
3/2
3/2
1/2
3/2
1/2
5/2
3/2
5/2
5/2
7/2
5/2
5/2
3/2
7/2
5/2
3/2
1/2
1/2
7/2
1/2
3/2
1/2
3/2
1/2
5/2
5/2
5/2
3/2
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.05
0.05
0.01
Classification
Configuration
2
2 3
5s 5p ( P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s5p 4
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s5p 4
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)6s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
P
D
2
D
2
G
2
D
2
P
4
P
4
D
4
P
2
P
2
D
2
P
4
P
2
D
2
P
2
D
4
P
2
D
2
D
2
F
2
F
2
D
2
G
2
D
4
P
2
P
2
P
2
F
2
P
2
P
2
P
4
P
2
D
2
F
4
P
2
P
2
P
2
F
2
D
2
D
2
P
4
P
2
D
2
F
2
D
2
G
4
P
4
P
2
S
2
P
2
D
4
P
2
F
2
P
2
D
2
D
4
P
2
F
2
D
4
P
2
J
3/2
3/2
5/2
7/2
5/2
1/2
3/2
7/2
5/2
1/2
3/2
3/2
5/2
3/2
3/2
5/2
3/2
3/2
3/2
7/2
5/2
3/2
9/2
3/2
3/2
1/2
3/2
5/2
1/2
3/2
3/2
3/2
3/2
5/2
1/2
1/2
1/2
5/2
5/2
3/2
3/2
5/2
5/2
7/2
5/2
7/2
5/2
5/2
1/2
1/2
5/2
3/2
5/2
3/2
3/2
3/2
5/2
5/2
3/2
5/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
2
4
Source
of
line
95GAL
95GAL
95GAL
81GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
85REY
95GAL
95GAL
95GAL
81GAL
95GAL
81GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
81GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
81GAL
81GAL
95GAL
SPECTRAL LINES OF XENON
863
Spectral lines of Xe IV—Continued
Observed
air
wavelength
共Å兲
4995.44
5268.85
5288.78
5325.12
5330.17
5330.17
5341.31
5377.65
5379.85
5416.62
5432.74
5483.83
5580.31
5606.01
5689.64
5992.71
6038.97
6371.09
6450.34
6588.17
6777.57
Observed
wave
number
共cm⫺1兲
20 012.7
18 974.19
18 902.69
18 773.70
18 755.91
18 755.91
18 716.79
18 590.31
18 582.71
18 456.57
18 401.80
18 230.37
17 915.18
17 833.05
17 570.93
16 682.32
16 554.53
15 691.56
15 498.78
15 174.53
14 750.48
Intensity
and
comment
1
3
0
12
1*
1*
5
1
6
6
6
3
9
10
2
3
1
1
1
1
1
Term
J
Uncertainty of
observed
wavelength
共Å兲
2 ⴰ
3/2
1/2
1/2
3/2
5/2
7/2
5/2
5/2
5/2
3/2
7/2
5/2
5/2
3/2
3/2
7/2
5/2
3/2
5/2
5/2
3/2
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Classification
Configuration
2
2 1
5s 5p ( D)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s5p 4
2
5s 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 D)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 D)5d
5s5p 4
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)6s
5s 2 5p 2 ( 1 S)5d
5s 2 5p 2 ( 3 P)5d
Term
2
D
D
2
P
2
P
2
P
2
G
4
P
2
D
2
F
2
P
2
F
4
P
2
P
2
P
2
P
2
D
2
D
2
D
2
P
2
D
2
F
2
J
Configuration
5/2
3/2
1/2
1/2
3/2
9/2
3/2
5/2
7/2
3/2
7/2
5/2
3/2
1/2
3/2
5/2
3/2
3/2
3/2
5/2
5/2
4.5. Xe V
Sn isoelectronic sequence
Ground state
1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 105s 2 5p 2 3 P0
Ionization energy 436 700⫾400 cm⫺1 共54.14⫾0.05 eV兲
关93TAU兴
Analyses of the spectrum of four times ionized xenon,
Xe V, were published in 1999 by Gallardo et al. 关99GAL兴
and in 1993 by Tauheed et al. 关93TAU兴. We use the levels
determined by Gallardo et al. 关99GAL兴 which provide the
most complete set available. However, we use the value of
234 455.6 cm⫺1 共rather than 234 459.6 cm⫺1兲 for the value of
the 5p6 p 3 P1 level since that is the value that fits this level
for all 16 lines involving it in their table of classified lines.
Gallardo et al. 关99GAL兴 classified 233 lines and 198 classifications from this source are in our Xe V Line Table. The
VUV was studied using a capillary pulsed discharge as the
light source. The visible/near UV spectra were obtained using laser–tube-like sources. They estimate their wavelength
uncertainty as 0.01 Å.
Tauheed et al. 关93TAU兴 classified 73 VUV lines. They
used a modified triggered spark initiated by a puff of xenon
gas as their source. The quoted accuracy of their wavelength
measurements is 0.005 Å.
These two data sets are the primary sources for our line
list. Where duplicate lines exist, lines from 关93TAU兴 were
given first priority and 关99GAL兴 had second priority. Two
additional lines were taken from 关94GAL兴 who used the
same light sources as 关99GAL兴 and quoted the same uncertainty. Additional sources of lines which were superseded by
the first three sources and therefore did not contribute to our
list were 关94DUC兴 and 关92PIN兴.
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 3
5s 5p ( P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 3 P)6p
5s 2 5p 2 ( 3 P)4 f
5s 2 5p 2 ( 1 D)4 f
5s 2 5p 2 ( 3 P)6p
P
P
4 ⴰ
D
2 ⴰ
D
4 ⴰ
D
4 ⴰ
G
4 ⴰ
G
2 ⴰ
F
4 ⴰ
F
4 ⴰ
S
4 ⴰ
F
2 ⴰ
D
2 ⴰ
D
4 ⴰ
D
4 ⴰ
D
2 ⴰ
G
4 ⴰ
G
2 ⴰ
P
2 ⴰ
D
2 ⴰ
F
4 ⴰ
D
2 ⴰ
Source
of
line
81GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
95GAL
Six additional lines were quoted by 关96LAR兴 from
collision-based spectroscopy but were not included in our list
due to the relatively large quoted uncertainty in the experimental measurement 共0.5–1.0 Å兲.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe V levels. Only classifiable lines are included in our compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 with adjusted configuration average energies are used to help resolve choices between multiple possible classifications of lines. Intensities reported are those
given in the stated references and are not on a common scale.
The intensity codes given in the Xe V line table are taken
from the specified sources. Their meaning is stated below:
Symbol
Definition
b
a
w
blend
asymmetric
wide
two or more classifications of this line share the
same intensity
*
The ionization energy was determined by Tauheed et al.
关93TAU兴 by means of spectral analysis.
References
81COW
92PIN
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
E. H. Pinnington, R. N. Gosselin, Q. Ji, J. A.
Kernahan, and B. Guo, Phys. Scr. 46, 40 共1992兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
864
E. B. SALOMAN
93TAU
A. Tauheed, Y. N. Joshi, V. Kaufman, J. Sugar,
and E. H. Pinnington, J. Opt. Soc. Am. B 10,
561 共1993兲.
94DUC
R. Duchowicz, D. Schinca, and M. Gallardo,
IEEE J. Quantum Electron. 30, 155 共1974兲.
94GAL
M. Gallardo, M. Raineri, and J. G. Reyna
Almandos, Z. Phys. D 30, 261 共1994兲.
96LAR
M. O. Larsson, A. M. Gonzalez, R. Hallin, F.
Heijkenskjöld, B. Nyström, G. O’Sullivan, C.
Weber, and A. Wännström, Phys. Scr. 53, 317
共1996兲.
M. Gallardo, M. Raineri, J. G. Reyna
Almandos, H. Sobral, and F. Callegari, J.
Quant. Spectrosc. Radiat. Transfer 61, 319
共1999兲.
99GAL
Energy levels of Xe V
Energy level
共cm⫺1兲
Parity
Configuration
0.0
9 291.8
14 126.7
28 411.2
44 470.4
0
0
0
0
0
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
92 182.8
115 286.3
116 097.0
119 919.0
133 408.1
134 575.2
134 702.7
145 807.0
155 518.1
169 672.6
1
1
1
1
1
1
1
1
1
1
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
156 506.8
160 630.4
169 799.4
170 987.6
173 071.7
181 004.3
182 167.2
183 025.2
184 147.6
185 795.0
194 138.0
199 959.0
1
1
1
1
1
1
1
1
1
1
1
1
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
186 746.7
189 663.8
190 644.7
191 603.5
200 010.2
201 545.2
202 281.8
205 758.8
207 366.7
209 310.7
214 317.7
216 745.6
0
0
0
0
0
0
0
0
0
0
0
0
194 033.1
194 232.9
209 068.9
213 040.2
228 064.9
233 999.3
234 455.6
235 178.9
243 216.5
244 821.3
246 208.0
247 810.4
250 557.2
259 642.3
J
Source
of level
0
1
2
2
0
99GAL
99GAL
99GAL
99GAL
99GAL
S
Dⴰ
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
D
3 ⴰ
S
1 ⴰ
P
2
1
2
3
0
1
2
2
1
1
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
3 ⴰ
F
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
1 ⴰ
D
1 ⴰ
F
1 ⴰ
P
2
3
4
2
1
2
3
0
1
2
3
1
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
3
G
F
3
F
3
F
1
F
3
G
3
G
3
D
3
D
3
D
1
G
1
D
3
3
4
2
3
4
5
3
2
1
4
2
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
1
1
1
1
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
3 ⴰ
P
P
3 ⴰ
P
1 ⴰ
P
0
1
2
1
99GAL
99GAL
99GAL
99GAL
0
0
0
0
0
0
0
0
0
0
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
3
1
0
1
2
1
2
3
1
2
0
99GAL
99GAL
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
P
P
3
P
1
D
1
S
3
5 ⴰ
3
3 ⴰ
3
3 ⴰ
D
P
3
P
3
D
1
P
3
P
3
D
3
S
1
D
1
S
3
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
SPECTRAL LINES OF XENON
865
Spectral lines of Xe V
Observed
vacuum
wavelength
共Å兲
500.108
500.557
502.731
512.972
514.852
524.473
538.120
540.717
541.297
541.628
543.05
553.534
555.227
555.522
566.57
571.898
575.594
577.797
582.366
582.514
582.930
588.167
589.375
593.231
595.094
599.244
603.059
603.404
610.576
618.443
623.515
629.144
635.383
637.503
642.118
642.890
643.012
643.133
650.381
655.333
662.10
667.725
679.276
682.573
683.866
691.275
701.377
702.340
702.87
707.250
707.905
732.516
735.94
743.079
756.316
765.47
768.58
772.00
776.87
777.600
Observed
wave
number
共cm⫺1兲
199 956.8
199 777.4
198 913.5
194 942.4
194 230.6
190 667.6
185 832.2
184 939.6
184 741.5
184 628.6
184 145.
180 657.4
180 106.5
180 010.9
176 501.
174 856.4
173 733.6
173 071.2
171 713.3
171 669.7
171 547.2
170 019.7
169 671.3
168 568.4
168 040.7
166 876.9
165 821.3
165 726.4
163 779.8
161 696.4
160 381.1
158 946.1
157 385.4
156 862.0
155 734.6
155 547.6
155 518.1
155 488.8
153 756.0
152 594.2
151 035.
149 762.3
147 215.6
146 504.5
146 227.5
144 660.2
142 576.7
142 381.2
142 274.
141 392.7
141 261.9
136 515.8
135 880.6
134 575.2
132 219.9
130 638.7
130 110.1
129 533.7
128 721.7
128 600.8
Intensity
and
comment
22
40
20
50
40
20
90b
20
40
40
10
25
45b
50b
11
55
65
75
70
45
20
55
70
40
75b
70
20
72
45
75
15
12
70
70
55b
5
65
60
65
50
6
35
60
75
70
55
50
90b
12a
80
65
30
3
65
10b
2
3
7
6b
10
Term
J
Uncertainty of
observed
wavelength
共Å兲
1 ⴰ
1
2
1
2
1
1
1
1
0
1
1
2
1
3
2
1
0
1
2
2
1
1
1
1
3
2
1
3
1
2
1
1
2
2
1
1
1
1
3
2
1
1
2
3
1
1
2
2
1
1
1
2
1
1
3
2
3
2
2
1
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.005
0.005
0.005
0.01
0.005
0.005
0.01
0.01
0.01
0.01
0.005
Classification
Configuration
2
2
5s 5p
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s5p 3
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s5p 3
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s5p 3
5s 2 5p 2
5s 2 5p 2
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s 2 5p 2
Term
3
P
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
1
D
3
P
1
D
3
P
3
P
3
P
3
P
3
P
3
P
3
P
3
P
1
D
3
P
3
P
1
S
3
P
3
P
1
D
1
D
3
P
3
P
3
P
3
P
1
D
3
P
1
D
3
P
3
P
1
S
1
D
1
D
5 ⴰ
S
1
S
3
P
3
P
3
P
1
D
1
D
3
P
5 ⴰ
S
3
P
1
D
3
P
5 ⴰ
S
3
P
1
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1
S
3
J
0
1
2
2
0
1
2
1
1
2
0
2
2
2
1
1
1
0
1
2
2
2
0
0
2
2
2
2
1
1
1
2
2
2
2
2
0
0
2
2
2
0
1
2
1
2
2
2
2
2
2
1
2
0
2
3
2
1
2
0
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 ⴰ
5s 5p( P )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
2
5s 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
2
5s 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )5d
P
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
F
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
1 ⴰ
P
3 ⴰ
P
1 ⴰ
P
1 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
1 ⴰ
F
3 ⴰ
D
3 ⴰ
P
1 ⴰ
P
3 ⴰ
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
S
1 ⴰ
P
3 ⴰ
D
3 ⴰ
D
1
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
S
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3
P
3 ⴰ
S
1 ⴰ
P
1 ⴰ
D
3
D
3 ⴰ
P
3 ⴰ
F
1
D
3
D
3
P
3
P
3 ⴰ
D
3 ⴰ
Source
of
line
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
99GAL
93TAU
93TAU
93TAU
99GAL
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
99GAL
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
99GAL
93TAU
93TAU
93TAU
99GAL
93TAU
93TAU
99GAL
99GAL
99GAL
99GAL
93TAU
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
866
E. B. SALOMAN
Spectral lines of Xe V—Continued
Observed
vacuum
wavelength
共Å兲
780.662
786.66
786.728
791.84
797.379
798.182
798.705
805.695
829.346
830.230
834.08
839.15
844.89
851.814
862.20
863.15
867.410
886.68
893.12
896.82
900.500
907.06
908.11
921.54
936.283
940.813
941.95
943.442
945.244
954.66
980.68
988.534
989.63
995.26
1002.48
1026.60
1056.47
1059.34
1063.26
1063.55
1071.10
1072.81
1083.53
1086.01
1092.801
1095.65
1109.829
1111.49
1114.82
1115.28
1118.92
1119.77
1128.06
1132.32
1140.28
1140.443
1143.53
1151.083
1153.27
1155.13
Observed
wave
number
共cm⫺1兲
128 096.4
127 119.7
127 108.7
126 288.1
125 410.9
125 284.7
125 202.7
124 116.4
120 576.9
120 448.6
119 892.6
119 168.2
118 358.6
117 396.5
115 982.4
115 854.7
115 285.7
112 780.3
111 967.0
111 505.1
111 049.4
110 246.3
110 118.8
108 514.0
106 805.3
106 291.0
106 162.7
105 994.9
105 792.8
104 749.3
101 970.1
101 159.9
101 047.9
100 476.3
99 752.6
97 408.9
94 654.8
94 398.4
94 050.4
94 024.7
93 362.0
93 213.2
92 290.9
92 080.2
91 508.0
91 270.0
90 104.0
89 969.3
89 700.6
89 663.6
89 371.9
89 304.1
88 647.8
88 314.3
87 697.8
87 685.2
87 448.5
86 874.7
86 710.0
86 570.3
Intensity
and
comment
50
3
10b
8
10
80
35
75
82
35
1
2
6
75
6
3
80
9a
1
10
25
9
6
7
85
40
5
20
82
7
12
35
3
5
10
9
3
6
4
7
8
6
3
4
70
8
15
5
3
1
6
4
3
5
6
10
8
30
6
4
Term
J
Uncertainty of
observed
wavelength
共Å兲
3 ⴰ
2
1
1
3
2
1
1
0
2
1
2
1
1
2
2
2
1
1
1
3
1
2
2
1
2
2
1
1
3
2
2
1
1
2
1
1
1
4
2
1
1
1
1
2
3
2
1
0
3
3
2
2
1
2
1
2
2
1
1
0
0.005
0.01
0.005
0.01
0.005
0.005
0.005
0.005
0.005
0.005
0.01
0.01
0.01
0.005
0.01
0.01
0.005
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.005
0.005
0.01
0.005
0.005
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.005
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.005
0.01
0.005
0.01
0.01
Classification
Configuration
2
2
5s 5p
5s5p 3
5s 2 5p 2
5s5p 3
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s5p 3
5s5p 3
5s5p 3
5s 2 5p 2
5s5p 3
5s5p 3
5s 2 5p 2
5s5p 3
5s5p 3
5s5p 3
5s 2 5p 2
5s5p 3
5s5p 3
5s5p 3
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s 2 5p 2
5s5p 3
5s 2 5p 2
5s 2 5p 2
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s 2 5p 2
5s5p 3
5s 2 5p 2
5s5p 3
2
5s 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
5s5p 3
5s5p 3
2
5s 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p 2
5s5p 3
5s 2 5p 2
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
D
Dⴰ
1
D
3 ⴰ
D
3
P
3
P
1
S
3
P
3
P
3
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1
D
3 ⴰ
P
3 ⴰ
P
3
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
1
S
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3
P
1
D
1
D
3
P
3
P
1 ⴰ
D
3
P
3
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
S
3 ⴰ
D
1
D
3 ⴰ
D
1
S
1 ⴰ
P
3 ⴰ
F
3 ⴰ
D
1 ⴰ
D
3 ⴰ
S
1 ⴰ
D
3 ⴰ
F
3 ⴰ
S
1
D
3 ⴰ
D
1
D
3 ⴰ
F
3 ⴰ
D
3
J
2
2
2
3
1
1
0
1
2
2
1
1
2
2
1
2
0
1
2
2
0
1
2
2
1
2
2
1
2
2
2
2
0
2
2
2
0
3
2
1
2
2
1
1
2
2
0
1
2
2
2
1
2
2
1
2
3
2
2
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 ⴰ
5s 5p( P )5d
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s5p 3
2
5s 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s5p 3
2
5s 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s5p 3
5s 2 5p( 2 Pⴰ )4 f
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s 2 5p( 2 Pⴰ )4 f
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
F
P
3 ⴰ
S
3
D
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3
D
3
P
3
P
1 ⴰ
D
1
D
1
D
3 ⴰ
D
3
D
3
D
3
D
3 ⴰ
S
3
P
3
P
1
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
1
D
3 ⴰ
D
3 ⴰ
D
3
P
3
D
3
P
1
P
3
D
1
G
1
D
3
D
3
D
3
D
3
S
3
D
3 ⴰ
D
3
D
3 ⴰ
P
1
S
3
D
3
D
3
D
3
P
3
P
3
P
1
P
3 ⴰ
D
3
D
3 ⴰ
D
1
P
1
S
1
Source
of
line
93TAU
99GAL
93TAU
99GAL
93TAU
93TAU
93TAU
93TAU
93TAU
93TAU
99GAL
99GAL
99GAL
93TAU
99GAL
99GAL
93TAU
99GAL
99GAL
99GAL
93TAU
99GAL
99GAL
99GAL
93TAU
93TAU
99GAL
93TAU
93TAU
99GAL
99GAL
93TAU
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
93TAU
99GAL
93TAU
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
93TAU
99GAL
93TAU
99GAL
99GAL
SPECTRAL LINES OF XENON
867
Spectral lines of Xe V—Continued
Observed
vacuum
wavelength
共Å兲
1164.96
1168.52
1191.69
1206.406
1218.88
1225.10
1236.34
1248.58
1255.32
1256.75
1271.10
1281.127
1282.89
1290.57
1301.69
1317.46
1324.38
1324.58
1329.44
1330.70
1338.05
1340.34
1341.42
1354.40
1359.31
1359.74
1373.79
1376.20
1393.73
1397.45
1407.34
1409.67
1412.12
1413.91
1425.61
1433.80
1437.75
1496.38
1505.80
1531.22
1533.66
1543.61
1543.61
1544.11
1557.84
1561.47
1566.96
1568.10
1574.73
1575.59
1596.09
1607.41
1610.11
1624.41
1629.08
1641.33
1648.14
1655.26
1668.00
1675.51
Observed
wave
number
共cm⫺1兲
85 839.9
85 578.3
83 914.4
82 890.8
82 042.5
81 626.0
80 883.9
80 091.0
79 661.0
79 570.3
78 672.0
78 056.3
77 949.0
77 485.1
76 823.2
75 903.6
75 507.0
75 495.6
75 219.6
75 148.4
74 735.6
74 607.9
74 547.9
73 833.4
73 566.7
73 543.5
72 791.3
72 663.9
71 749.9
71 558.9
71 056.0
70 938.6
70 815.5
70 725.9
70 145.4
69 744.7
69 553.1
66 827.9
66 409.9
65 307.4
65 203.5
64 783.2
64 783.2
64 762.2
64 191.4
64 042.2
63 817.8
63 771.4
63 502.9
63 468.3
62 653.1
62 211.9
62 107.6
61 560.8
61 384.3
60 926.2
60 674.5
60 413.5
59 952.0
59 683.3
Intensity
and
comment
11
9
10
70b
7
12
4
7
5
6
6
75
12
3
4
12
9
4
4
3
10
5
12
7
13
4
11
10
6
9a
9
7
10
12
3
1
1
8
9
12
4
6*
6*
9
6
14
7
5
7
8
2
7
3
8
2
1
6
8
12
10
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
3
3
2
2
4
2
3
2
2
2
2
1
2
1
1
2
0
3
2
1
1
2
2
3
1
2
2
2
1
3
2
1
4
1
3
2
3
2
3
3
1
1
2
2
3
2
2
1
1
2
1
2
2
1
0
2
3
3
0
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.005
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
99GAL
99GAL
99GAL
93TAU
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
93TAU
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
94GAL
99GAL
99GAL
99GAL
99GAL
94GAL
99GAL
99GAL
99GAL
99GAL
Classification
Configuration
3
5s5p
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p 2
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p 2
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
5s 2 5p 2
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p 2
5s5p 3
2
5s 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
2
5s 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
Term
3
ⴰ
D
F
3 ⴰ
D
3
P
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
S
3 ⴰ
P
3 ⴰ
F
3
P
3 ⴰ
F
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
F
3 ⴰ
P
1 ⴰ
D
1
S
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
1 ⴰ
P
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
1
D
1 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
1 ⴰ
D
1 ⴰ
D
1 ⴰ
P
3 ⴰ
J
3
3
2
1
2
3
1
3
1
2
2
2
2
1
2
0
2
1
2
1
1
2
3
2
2
1
1
2
1
2
2
2
0
3
1
3
2
3
1
2
2
0
1
2
2
3
2
2
2
2
3
2
1
2
1
1
1
2
2
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 ⴰ
5s 5p( P )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s5p 3
2
5s 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s5p 3
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s5p 3
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
Term
3
D
D
1
F
5 ⴰ
S
1
D
3
G
1
D
1
F
3
D
1
D
3
D
5 ⴰ
S
3
P
1
D
3
S
3
D
3
F
1
S
3
D
3
P
3
D
3
D
3
D
3
P
3
F
1
P
3
D
3
D
3
P
3
D
3
D
1
D
3 ⴰ
D
3
F
1
P
3
F
1
D
3
G
1
D
1
F
3
D
3
S
3
P
1
D
3
D
3
D
3
P
5 ⴰ
S
3
D
3
P
3
P
1
P
3
D
3
D
3
P
3
P
3
P
3
D
3
D
1
S
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
868
E. B. SALOMAN
Spectral lines of Xe V—Continued
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
1692.91
1712.52
1741.50
1753.52
1775.44
1782.05
1818.40
1844.91
1845.87
1862.62
1870.87
1893.79
1920.49
1921.44
1928.68
1944.34
1959.60
1976.36
1987.79
59 069.9
58 393.5
57 421.8
57 028.1
56 324.1
56 115.1
54 993.4
54 203.2
54 175.0
53 687.8
53 451.1
52 804.2
52 070.0
52 044.3
51 848.9
51 431.3
51 030.8
50 598.1
50 307.1
7
10
3
6
6
8
5
9
5
6
4
3
2
10
3
2
4
6
5
Observed
air
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
2024.35
2029.75
2032.56
2040.86
2089.12
2123.69
2124.25
2138.99
2145.16
2184.69
2228.33
2311.04
2409.59
2435.82
2441.49
2441.86
2443.37
2473.11
2485.41
2513.88
2522.04
2538.60
2664.68
2691.74
2780.10
2796.17
2848.43
2875.15
2875.15
2927.64
2936.86
2937.57
2954.93
3015.09
3077.71
3109.49
49 382.7
49 251.3
49 183.2
48 983.2
47 851.8
47 073.0
47 060.6
46 736.3
46 601.9
45 758.8
44 862.7
43 257.26
41 488.22
41 041.49
40 946.18
40 939.98
40 914.68
40 422.70
40 222.67
39 767.17
39 638.52
39 379.96
37 516.80
37 139.67
35 959.32
35 752.66
35 096.74
34 770.59
34 770.59
34 147.21
34 040.02
34 031.79
33 831.86
33 156.85
32 482.25
32 150.29
2
8
6
5
1
8
4
5
9
8
3
4
11
2
14b
15
10
12
9
5
1
11
6
15w
3
6
9
11*
11*
10
3
12
10
13
16
9
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
2
2
2
1
3
2
4
1
1
3
3
2
1
2
2
1
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
3
1
1
1
2
1
2
0
2
2
1
2
2
2
3
4
1
1
0
1
3
2
3
3
2
2
3
1
1
0
1
1
3
5
4
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
Classification
Configuration
2
2 ⴰ
5s 5p( P )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s5p 3
2
5s 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
Term
3 ⴰ
P
P
1 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
F
1 ⴰ
F
3 ⴰ
P
3 ⴰ
S
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
1 ⴰ
J
1
1
2
1
1
3
1
2
2
3
2
2
3
2
1
0
1
1
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 ⴰ
5s 5p( P )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
Term
1
P
D
1
P
3
F
1
D
1
D
3
D
1
F
3
D
1
G
3
P
3
D
3
D
3
G
3
D
3
P
3
D
1
D
3
P
3
Classification
Configuration
2
2 ⴰ
5s 5p( P )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
ⴰ
D
F
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
1 ⴰ
P
3 ⴰ
D
3 ⴰ
F
1 ⴰ
P
3 ⴰ
P
1 ⴰ
P
1 ⴰ
P
3 ⴰ
P
1 ⴰ
F
3 ⴰ
P
1 ⴰ
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
F
1 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
D
3 ⴰ
J
2
2
0
1
1
1
2
3
1
2
1
1
2
3
1
2
3
0
1
1
1
3
1
2
4
2
2
2
1
2
1
0
1
2
4
3
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 ⴰ
5s 5p( P )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
Term
3
D
D
1
P
1
P
3
S
1
D
3
D
3
D
1
S
1
D
3
P
1
P
1
D
3
D
3
D
3
G
3
G
3
P
3
P
3
P
3
D
1
F
1
D
3
D
3
D
3
P
3
F
3
D
3
S
1
P
3
P
3
D
3
D
3
F
3
G
1
G
3
SPECTRAL LINES OF XENON
869
Spectral lines of Xe V—Continued
Observed
air
wavelength
共Å兲
3145.57
3149.11
3227.69
3230.04
3305.96
3309.11
3312.92
3330.84
3443.32
3444.70
3556.98
3792.31
3803.26
3827.98
3828.89
3938.04
3967.25
3973.01
4038.46
4237.66
4305.69
4422.08
4515.67
4558.49
4634.49
4769.94
4849.30
4954.13
5007.80
5151.90
5159.08
5260.19
5352.92
5394.62
5602.83
5899.11
5955.67
6653.85
Observed
wave
number
共cm⫺1兲
31 781.54
31 745.81
30 972.97
30 950.43
30 239.69
30 210.91
30 176.17
30 013.82
29 033.42
29 021.79
28 105.71
26 361.67
26 285.77
26 116.03
26 109.82
25 386.16
25 199.25
25 162.72
24 754.92
23 591.29
23 218.55
22 607.44
22 138.90
21 930.94
21 571.31
20 958.76
20 615.77
20 179.55
19 963.28
19 404.91
19 377.90
19 005.43
18 676.20
18 531.83
17 843.17
16 947.01
16 786.07
15 024.74
Intensity
and
comment
10
13
5
6
16
2
9
16
9
8
3
11
12
14
6
3
6
8
4
10
15
12
1
15
12
7
9
15
12
1
15
15
16
15
9
2
12
1
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
4
2
2
3
3
1
4
3
3
1
2
1
3
2
1
2
1
3
3
2
2
2
2
2
0
2
4
3
2
4
3
3
2
3
3
2
1
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
99GAL
Classification
Configuration
2
2 ⴰ
5s 5p( P )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s5p 3
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )5d
5s 2 5p( 2 Pⴰ )6s
Term
1 ⴰ
P
F
3 ⴰ
F
1 ⴰ
D
3 ⴰ
F
3 ⴰ
F
1 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
1 ⴰ
F
1 ⴰ
P
1 ⴰ
P
1 ⴰ
D
1 ⴰ
P
3 ⴰ
P
1 ⴰ
F
1 ⴰ
D
3
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
F
1 ⴰ
P
1 ⴰ
P
3 ⴰ
J
1
4
3
2
2
4
1
3
3
2
1
2
0
3
2
2
3
1
2
3
1
3
1
1
2
1
2
3
2
3
3
2
2
1
3
4
1
1
4.6. Xe VI
In isoelectronic sequence
Ground state
ⴰ
1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 105s 2 5p 2 P1/2
⫺1
Ionization energy 537 996⫾57 cm 共66.703⫾0.007 eV兲
关96 WAN兴
Partial analyses of the spectrum of five times ionized xenon, Xe VI, were published by several sources 关00CHU兴,
关99SAR兴, 关97WAN兴, 关96WAN兴, 关96LAR兴, 关92TAU兴, and
关87KAU兴. Some earlier work is summarized in 关82HIB兴. As
indicated in the Xe VI level table, we use the levels determined by Churilov and Joshi 关00CHU兴 for the 5s5p5d,
5s 2 5p, 5s 2 6p, 5s 2 5 f and 5p 3 levels. We use Wang et al.
关97WAN兴 for the 5s 2 7s, 5s 2 8s, 5s 2 7p, 5s 2 8p, 5s 2 6d,
5s 2 7d, and 5s 2 8d levels. We use Wang et al. 关96WAN兴 for
the 5s 2 5g, 5s 2 6g, 5s 2 6h, 5s 2 7h, 5s 2 8h, 5s 2 7i, 5s 2 8i,
and 5s 2 8k levels. We use Larsson et al. 关96LAR兴 for the
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2
2 ⴰ
5s 5p( P )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6s
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )4 f
5s 2 5p( 2 Pⴰ )6p
Term
3
P
G
3
F
1
D
3
G
1
F
1
P
3
F
3
F
1
F
3
D
3
D
3
D
3
G
3
D
3
P
3
D
3
D
3
D
3
D
3
D
1
D
3
D
3
F
3
D
3
P
3
F
1
G
3
D
3 ⴰ
P
3
G
1
F
3
F
3
F
1
F
3
G
1
D
3
D
3
5s 2 4 f levels. We use Tauheed et al. 关92TAU兴 for the
5s5 p 2 4 P levels and Kaufman and Sugar 关87KAU兴 for the
5s 2 6s, 5s 2 5d, and 5s5 p 2 2 D, 2 P, and 2 S levels. There is
strong disagreement between the analyses of Churilov and
Joshi 关00CHU兴 and Sarmiento et al. 关99SAR兴. For this compilation we have chosen to use the results of Churilov and
Joshi 关00CHU兴.
In the Xe VI level table we quote the level energies to the
indicated number of decimal places for levels with a decimal
point. Levels without a decimal point have uncertainties in
their tens place. The 5s5 p5d and 5p 3 configurations are
very mixed in LS notation and we follow Churilov and Joshi
关00CHU兴 in not specifying a LS designation but rather specifying only the configuration, the integer value of the energy
level, the J value, and the odd parity.
Xe VI lines have been reported by several sources
关80FAW兴, 关87KAU兴, 关92TAU兴, 关96LAR兴, 关96WAN兴,
关97WAN兴, 关00CHU兴, 关01REY兴. The sources of the lines in
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
870
E. B. SALOMAN
TABLE 5. Sources of Xe VI lines.
Source
Number of
classifications
Light source
Wavelength range
共Å兲
Uncertainty
共Å兲
87KAU
92TAU
96LAR
96WAN
97WAN
00CHU
01REY
14
5
7
15
18
53
14
modified triggered spark initiated by puff of xenon gas
triggered spark
collision-based spectroscopy
collision-based spectroscopy
collision-based spectroscopy
modified triggered spark initiated by puff of xenon gas
capillary pulse discharge
447–915
996 –1299
1281–3861
779–5237
1220–5285
521–1181
495–1361
0.005
0.005
0.5–1.0
0.4 –0.8
0.6 –0.8
0.005
0.02
our Xe VI line table are summarized in the Xe VI line source
table.
Reyna Almandos et al. 关01REY兴 classified 104 Xe VI
lines. However, only 20 of these lines are consistent with the
energy levels as chosen above. Their study was based on the
levels reported Sarmiento et al. 关99SAR兴 which, as noted
above, disagree with the energy levels of Churilov and Joshi
关00CHU兴 used here.
Where duplicate lines exist, lines from 关00CHU兴,
关92TAU兴, and 关87KAU兴 were given first priority followed by
关01REY兴 and 关80FAW兴 in that order. These were followed by
the collision-based spectroscopy results of 关97WAN兴,
关96WAN兴, and 关96LAR兴 in that order. No 关80FAW兴 lines are
in the Xe VI line list 共see Table 5兲.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe VI levels. Only classifiable lines are included in our compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 with adjusted configuration average energies are used to help resolve choices between multiple possible classifications of lines. Intensities reported are those
given in the stated references and are not on a common scale.
Intensities are not reported for the collision-based spectroscopy results.
The intensity codes given in the Xe VI line table are taken
from the specified sources. Their meaning is stated below:
Symbol
Definition
b
CBS
blend
lines observed in collision based spectroscopy
two or more classifications of this line share the
same intensity
*
References
80FAW
B. C. Fawcett and G. E. Bromage, J. Phys. B
13, 2711 共1980兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
82HIB
A. Hibbert, J. A. Kernahan, E. H. Pinnington,
and F. R. Simpson, Nucl. Instrum. Methods
202, 329 共1982兲.
87KAU
V. Kaufman and J. Sugar, J. Opt. Soc. Am. B 4,
1924 共1987兲.
92TAU
A. Tauheed, Y. N. Joshi, and E. H. Pinnington,
J. Phys. B 25, L561 共1992兲.
96LAR
M. O. Larsson, A. M. Gonzalez, R. Hallin, F.
Heijkenskjöld, B. Nyström, G. O’Sullivan, C.
Weber, and A. Wännström, Phys. Scr. 53, 317
共1996兲.
96WAN
M. Wang, M. O. Larsson, A. Arnesen, R. Hallin,
F. Heijkenskjöld, C. Nordling, and A.
Wännström, J. Opt. Soc. Am. B 13, 2715
共1996兲; J. Opt. Soc. Am. B 14, 1515 共1997兲.
97WAN
M. Wang, A. Arnesen, R. Hallin, F.
Heijkenskjöld, M. O. Larsson, A. Wännström,
A. G. Trigueiros, and A. V. Loginov, J. Opt.
Soc. Am. B 14, 3277 共1997兲.
99SAR
R. Sarmiento, J. G. Reyna Almandos, M.
Raineri, and M. Gallardo, J. Phys. B 32, 2853
共1999兲.
00CHU
S. S. Churilov and Y. N. Joshi, Phys. Scr. 62,
358 共2000兲.
01REY
J. G. Reyna Almandos, R. Sarmiento, M.
Raineri, F. Bredice, and M. Gallardo, J. Quant.
Spectrosc. Radiat. Transfer 70, 189 共2001兲.
The ionization energy was determined by 关96WAN兴 by
means of spectral analysis.
Energy levels of Xe VI
Energy level
共cm⫺1兲
Parity
Configuration
Term
0.0
15 599.0
1
1
5s 2 5p
5s 2 5p
2 ⴰ
92 586.
0
5s5p 2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
J
Source
of level
2 ⴰ
1/2
3/2
00CHU
00CHU
4
1/2
92TAU
P
P
P
SPECTRAL LINES OF XENON
871
Energy levels of Xe VI—Continued
Energy level
共cm⫺1兲
Parity
Configuration
100 378.
107 205.
124 869.9
129 229.9
141 837.2
157 995.6
159 112.0
0
0
0
0
0
0
0
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
180 249.6
182 308.0
0
0
184 994.
185 306.
223 477.8
J
Source
of level
P
P
2
D
2
D
2
P
2
S
2
P
3/2
5/2
3/2
5/2
1/2
1/2
3/2
92TAU
92TAU
87KAU
87KAU
87KAU
87KAU
87KAU
5s 2 5d
5s 2 5d
2
3/2
5/2
87KAU
87KAU
1
1
5s 2 4 f
5s 2 4 f
2 ⴰ
5/2
7/2
96LAR
96LAR
0
5s 2 6s
2
1/2
87KAU
3
Term
4
4
2
D
D
F
F
2 ⴰ
S
ⴰ
232 585.5
240 140.0
240 469.2
261 136.9
266 738.3
1
1
1
1
1
5p
5p 3
5p 3
5p 3
5p 3
232 586
240 140ⴰ
240 469ⴰ
261 137ⴰ
266 738ⴰ
3/2
3/2
5/2
1/2
3/2
00CHU
00CHU
00CHU
00CHU
00CHU
262 545.9
267 239.0
273 614.0
275 268.1
275 993.0
284 366.0
285 234.3
285 977.1
286 338.0
287 067.9
292 038.6
300 240.9
307 435.4
314 259.9
315 238.6
316 658.4
323 343.1
323 914.4
324 045.0
326 277.0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
262 546ⴰ
267 239ⴰ
273 614ⴰ
275 268ⴰ
275 993ⴰ
284 366ⴰ
285 234ⴰ
285 977ⴰ
286 338ⴰ
287 068ⴰ
292 039ⴰ
300 241ⴰ
307 435ⴰ
314 260ⴰ
315 239ⴰ
316 658ⴰ
323 343ⴰ
323 914ⴰ
324 045ⴰ
326 277ⴰ
5/2
7/2
5/2
3/2
1/2
5/2
7/2
3/2
5/2
1/2
5/2
7/2
3/2
1/2
7/2
5/2
3/2
1/2
5/2
3/2
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
264 891.0
270 305.7
1
1
5s 2 6p
5s 2 6p
2 ⴰ
1/2
3/2
00CHU
00CHU
331 260.0
331 798.0
1
1
5s 2 5 f
5s 2 5 f
2 ⴰ
7/2
5/2
00CHU
00CHU
338 450
339 770
0
0
5s 2 6d
5s 2 6d
2
3/2
5/2
97WAN
97WAN
352 250
0
5s 2 7s
2
1/2
97WAN
374 180
375 500
1
1
5s 2 7p
5s 2 7p
2 ⴰ
1/2
3/2
97WAN
97WAN
376 933
376 933
0
0
5s 2 5g
5s 2 5g
2
G
G
7/2
9/2
96WAN
96WAN
404 100
404 930
0
0
5s 2 7d
5s 2 7d
2
D
D
3/2
5/2
97WAN
97WAN
413 710
0
5s 2 8s
2
1/2
97WAN
1
1
2
1/2
3/2
97WAN
97WAN
423 270
424 230
5s 8p
5s 2 8p
P
P
2 ⴰ
F
F
2 ⴰ
2
D
D
S
P
P
2 ⴰ
2
2
S
2 ⴰ
P
P
2 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
872
E. B. SALOMAN
Energy levels of Xe VI—Continued
Energy level
共cm⫺1兲
Parity
Configuration
426 186
426 186
0
0
5s 2 6g
5s 2 6g
2
427 561
427 561
1
1
5s 2 6h
5s 2 6h
2
442 770
443 150
0
0
5s 2 8d
5s 2 8d
2
456 857
456 857
1
1
5s 2 7h
5s 2 7h
2
457 264
457 264
0
0
5s 2 7i
5s 2 7i
475 837
475 837
1
1
5s 2 8h
5s 2 8h
476 192
476 192
0
0
5s 2 8i
5s 2 8i
476 355
476 355
1
1
5s 2 8k
5s 2 8k
J
Source
of level
G
G
7/2
9/2
96WAN
96WAN
Hⴰ
Hⴰ
9/2
11/2
96WAN
96WAN
D
D
3/2
5/2
97WAN
97WAN
Hⴰ
Hⴰ
9/2
11/2
96WAN
96WAN
I
I
11/2
13/2
96WAN
96WAN
Hⴰ
Hⴰ
9/2
11/2
96WAN
96WAN
I
I
11/2
13/2
96WAN
96WAN
Kⴰ
Kⴰ
13/2
15/2
96WAN
96WAN
Term
2
2
2
2
2
2
2
2
2
2
2
2
Spectral lines of Xe VI
Observed
vacuum
wavelength
共Å兲
447.473
481.054
494.97
521.408
535.651
537.612
543.510
545.236
547.399
549.219
554.785
558.248
561.705
564.466
574.23
577.252
584.761
593.34
594.246
597.07
598.211
599.848
603.871
604.787
606.310
607.348
608.898
614.222
616.650
619.310
620.705
Observed
wave
number
共cm⫺1兲
223 477.
207 877.
202 032.
191 788.4
186 688.7
186 007.8
183 989.3
183 406.8
182 682.1
182 076.7
180 250.0
179 131.9
178 029.4
177 158.6
174 146.
173 234.6
171 010.0
168 537.
168 280.5
167 485.
167 165.1
166 708.9
165 598.3
165 347.5
164 932.1
164 650.2
164 231.1
162 807.6
162 166.5
161 470.0
161 107.1
Intensity
and
comment
15
40
5
72
55
80
15
80
90
36
100
20
78
27
5
50
65
5
12
5
35
150
45
55
60
70
50
50
12
12
23
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1/2
1/2
7/2
5/2
1/2
7/2
5/2
1/2
3/2
1/2
3/2
5/2
7/2
5/2
3/2
5/2
7/2
1/2
3/2
3/2
3/2
5/2
3/2
3/2
5/2
3/2
3/2
5/2
5/2
5/2
3/2
0.005
0.005
0.02
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.02
0.005
0.005
0.02
0.005
0.02
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
87KAU
87KAU
01REY
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
87KAU
00CHU
00CHU
00CHU
01REY
00CHU
00CHU
01REY
00CHU
01REY
00CHU
87KAU
00CHU
00CHU
00CHU
87KAU
00CHU
00CHU
00CHU
00CHU
00CHU
Classification
Configuration
Term
2
2 ⴰ
5s 5p
5s 2 5p
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s 2 5p
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p5d
5s5p 2
5s 2 5p
5s5p 2
5s5p 2
5s5p 2
5s 2 5p
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
P
P
2
D
2
D
4
P
2
D
4
P
4
P
4
P
2
P
2 ⴰ
P
4
P
4
P
4
P
4
P
4
P
2
D
4
P
2
S
275 268ⴰ
2
P
2 ⴰ
P
2
P
2
S
2
P
2 ⴰ
P
2
P
2
D
4
P
2
D
2
D
2 ⴰ
J
Configuration
1/2
3/2
5/2
3/2
3/2
5/2
3/2
1/2
1/2
1/2
1/2
5/2
5/2
5/2
1/2
3/2
5/2
1/2
1/2
3/2
3/2
3/2
1/2
1/2
3/2
3/2
3/2
5/2
3/2
3/2
3/2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5s 6s
5s 2 6s
5s 2 5 f
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s 2 5d
5s5p5d
5s5p5d
5s5p5d
5p 3
5s5p5d
5s5p5d
5p 3
5s5p5d
5s 2 8d
5s5p5d
5s 2 5d
5s5p5d
5s5p5d
5s5p5d
5s 2 5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
5s5p5d
Term
2
S
S
2 ⴰ
F
316 658ⴰ
287 068ⴰ
315 239ⴰ
284 366ⴰ
275 993ⴰ
275 268ⴰ
323 914ⴰ
2
D
286 338ⴰ
285 234ⴰ
284 366ⴰ
266 738ⴰ
273 614ⴰ
300 241ⴰ
261 137ⴰ
326 277ⴰ
2
D
326 277ⴰ
2
D
307 435ⴰ
323 343ⴰ
324 045ⴰ
2
D
323 343ⴰ
292 039ⴰ
262 546ⴰ
286 338ⴰ
285 977ⴰ
2
SPECTRAL LINES OF XENON
873
Spectral lines of Xe VI—Continued
Observed
vacuum
wavelength
共Å兲
624.875
626.970
628.489
632.930
636.495
637.67
639.946
643.748
657.81
659.849
668.948
671.357
677.720
687.59
692.591
694.590
696.062
696.801
702.264
705.035
705.528
708.842
709.33
714.172
714.289
715.507
727.237
733.859
752.247
756.391
776.28
778.5
792.149
797.571
800.832
880.043
898.963
901.622
915.163
928.366
929.131
967.55
971.52
996.233
1011.1
1011.1
1017.270
1080.080
1091.634
1101.947
1136.412
1165.86
1177.419
1179.541
1181.465
1220.4
1251.4
1251.4
1280.5
1285.5
1298.912
1340.69
Observed
wave
number
共cm⫺1兲
160 032.0
159 497.3
159 111.8
157 995.4
157 110.4
156 821.
156 263.2
155 340.3
152 020.
151 549.8
149 488.5
148 952.0
147 553.6
145 436.
144 385.4
143 969.8
143 665.4
143 513.0
142 396.6
141 836.9
141 737.8
141 075.2
140 978.
140 022.3
139 999.4
139 761.0
137 506.8
136 266.0
132 935.1
132 206.8
128 819.
128 450
126 238.9
125 380.7
124 870.1
113 630.8
111 239.3
110 911.2
109 270.2
107 716.1
107 627.4
103 354.
102 931.
100 378.1
98 900
98 900
98 302.3
92 585.7
91 605.8
90 748.5
87 996.3
85 773.6
84 931.5
84 778.7
84 640.7
81 940
79 910
79 910
78 090
77 790
76 987.5
74 588.5
Intensity
and
comment
60
20
150
25
10
3
65
5
3
85
10
88
75
3
12
48
8
250
200
250
15
42
2
32
57
78
20
70
75 b
47
2
CBS
20
80
250
500
88
12
5
10
8
8
2
5
CBS*
CBS*
10
50
62
8
14
4
25
30
25
CBS
CBS*
CBS*
CBS
CBS
25
5
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
7/2
5/2
3/2
1/2
5/2
5/2
1/2
5/2
3/2
5/2
5/2
7/2
3/2
3/2
5/2
3/2
1/2
3/2
1/2
1/2
5/2
3/2
9/2
1/2
3/2
3/2
3/2
1/2
3/2
3/2
3/2
3/2
1/2
3/2
3/2
5/2
5/2
3/2
3/2
3/2
3/2
3/2
7/2
3/2
11/2
9/2
3/2
1/2
5/2
3/2
3/2
3/2
7/2
3/2
1/2
1/2
11/2
9/2
7/2
5/2
1/2
3/2
0.005
0.005
0.005
0.005
0.005
0.02
0.005
0.005
0.02
0.005
0.005
0.005
0.005
0.02
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.02
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.02
0.4
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.02
0.02
0.005
0.4
0.4
0.005
0.005
0.005
0.005
0.005
0.02
0.005
0.005
0.005
0.6
0.6
0.6
0.5
0.5
0.005
0.02
00CHU
00CHU
87KAU
87KAU
00CHU
01REY
00CHU
00CHU
01REY
00CHU
00CHU
00CHU
00CHU
01REY
00CHU
00CHU
00CHU
87KAU
87KAU
87KAU
00CHU
00CHU
01REY
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
00CHU
01REY
96WAN
87KAU
00CHU
87KAU
87KAU
00CHU
00CHU
87KAU
00CHU
00CHU
01REY
01REY
92TAU
96WAN
96WAN
00CHU
92TAU
92TAU
00CHU
00CHU
01REY
00CHU
92TAU
00CHU
97WAN
96WAN
96WAN
96LAR
96LAR
92TAU
01REY
Classification
Configuration
2
5s5p
5s5p 2
5s 2 5p
5s 2 5p
5s5p 2
5s5p5d
5s5p 2
5s5p 2
5s 2 6s
5s 2 5d
5s 2 5d
5s 2 5d
5s5p 2
5s5p 2
5s5p 2
5s 2 5d
5s 2 5d
5s 2 5p
5s 2 5p
5s 2 5p
5s 2 5d
5s5p 2
5s5p5d
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p 2
5s5p5d
5s5p 2
5s 2 5p
5s5p 2
5s 2 5p
5s 2 5p
5s5p 2
5s5p 2
5s 2 5p
5s5p 2
5s5p 2
5s5p 2
5s 2 5d
5s 2 5p
5s 2 5g
5s 2 5g
5s5p 2
5s 2 5p
5s 2 5p
5s5p 2
5s 2 5d
5s 2 6d
5s 2 5d
5s 2 5p
5s 2 5d
5s 2 6p
5s 2 5g
5s 2 5g
5s5p 2
5s5p 2
5s 2 5p
5s5p 2
Term
4
P
D
2 ⴰ
P
2 ⴰ
P
2
D
286 338ⴰ
2
S
4
P
2
S
2
D
2
D
2
D
4
P
2
D
2
D
2
D
2
D
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2
D
2
D
285 234ⴰ
2
D
4
P
4
P
2
D
2
D
4
P
4
P
275 268ⴰ
2
P
2 ⴰ
P
4
P
2 ⴰ
P
2 ⴰ
P
2
D
2
D
2 ⴰ
P
2
D
2
P
2
D
2
D
2 ⴰ
P
2
G
2
G
2
P
2 ⴰ
P
2 ⴰ
P
2
P
2
D
2
D
2
D
2 ⴰ
P
2
D
2 ⴰ
P
2
G
2
G
4
P
4
P
2 ⴰ
P
2
S
2
J
5/2
3/2
1/2
1/2
5/2
5/2
1/2
5/2
1/2
3/2
5/2
5/2
1/2
3/2
5/2
5/2
3/2
3/2
3/2
1/2
5/2
5/2
7/2
3/2
1/2
3/2
5/2
3/2
5/2
3/2
3/2
1/2
3/2
5/2
1/2
3/2
5/2
5/2
3/2
3/2
3/2
5/2
5/2
1/2
9/2
7/2
1/2
1/2
3/2
1/2
5/2
3/2
5/2
3/2
3/2
3/2
9/2
7/2
5/2
5/2
3/2
1/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5s5p5d
5s5p5d
5s5p 2
5s5p 2
5s5p5d
5s 2 8d
5s5p5d
5s5p5d
5s 2 7p
5s 2 5 f
5s 2 5 f
5s 2 5 f
5p 3
5s 2 6p
5s5p5d
5s5p5d
5s5p5d
5s5p 2
5s5p 2
5s5p 2
5s5p5d
5s 2 6p
5s 2 6g
5s 2 6p
5p 3
5p 3
5p 3
5p 3
5p 3
5p 3
5s 2 7d
5s 2 6p
5s5p 2
5p 3
5s5p 2
5s5p 2
5p 3
5p 3
5s5p 2
5p 3
5p 3
5p 3
5s5p5d
5s5p 2
5s 2 8h
5s 2 8h
5p 3
5s5p 2
5s5p 2
5p 3
5s 2 6p
5s 2 8p
5s5p5d
5s5p 2
5s 2 6p
5s 2 7s
5s 2 7h
5s 2 7h
5s 2 4 f
5s 2 4 f
5s5p 2
5p 3
Term
ⴰ
267 239
284 366ⴰ
2
P
2
S
286 338ⴰ
2
D
314 260ⴰ
262 546ⴰ
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
240 140ⴰ
2 ⴰ
P
273 614ⴰ
326 277ⴰ
323 914ⴰ
2
P
2
S
2
P
324 045ⴰ
2 ⴰ
P
2
G
2 ⴰ
P
232 586ⴰ
240 140ⴰ
266 738ⴰ
261 137ⴰ
240 140ⴰ
232 586ⴰ
2
D
2 ⴰ
P
2
P
232 586ⴰ
2
D
2
D
240 469ⴰ
240 140ⴰ
2
D
232 586ⴰ
266 738ⴰ
232 586ⴰ
285 234ⴰ
4
P
2 ⴰ
H
2 ⴰ
H
240 140ⴰ
4
P
4
P
232 586ⴰ
2 ⴰ
P
2 ⴰ
P
267 239ⴰ
4
P
2 ⴰ
P
2
S
2 ⴰ
H
2 ⴰ
H
2 ⴰ
F
2 ⴰ
F
4
P
232 586ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
874
E. B. SALOMAN
Spectral lines of Xe VI—Continued
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
1359.8
1361.05
1439.2
1477.4
1663.0
1783.1
1793.2
1975.2
1975.2
73 540
73 472.7
69 480
67 690
60 132.
56 082.
55 766.
50 628.
50 628.
CBS
4
CBS
CBS
CBS
CBS
CBS
CBS*
CBS*
Observed
air
wavelength
共Å兲
Observed
wave
number
共cm⫺1兲
Intensity
and
comment
2055.6
2055.6
2134.9
2414.2
2530.6
2530.6
2616.2
2798.1
2798.1
3259.5
3259.5
3340.9
3365.7
3365.7
3397.3
3861.1
4299.6
4557.3
5127.0
5179.2
5215.0
5236.5
5236.5
5285.2
48 632.
48 632.
46 826.
41 409.
39 504.
39 504.
38 212.
35 728.
35 728.
30 671.
30 671.
29 923.
29 703.
29 703.
29 427.
25 892.
23 251.
21 937.
19 499.
19 303.
19 170.
19 091.
19 091.
18 915.
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3/2
3/2
5/2
5/2
5/2
7/2
5/2
9/2
11/2
0.6
0.02
0.6
0.6
0.5
0.5
0.5
0.6
0.6
97WAN
01REY
97WAN
97WAN
96LAR
96LAR
96LAR
96WAN
96WAN
Source
of
line
96WAN
96WAN
96LAR
97WAN
97WAN
97WAN
97WAN
97WAN
97WAN
96WAN
96WAN
97WAN
96WAN
96WAN
97WAN
96LAR
97WAN
97WAN
97WAN
97WAN
97WAN
96WAN
96WAN
97WAN
Classification
Configuration
Term
2
2 ⴰ
5s 6p
5s5p 2
5s 2 6p
5s 2 7p
5s5p 2
5s5p 2
5s5p 2
5s 2 5g
5s 2 5g
P
P
2 ⴰ
P
2 ⴰ
P
2
D
2
D
2
D
2
G
2
G
2
J
Configuration
1/2
3/2
3/2
3/2
3/2
5/2
5/2
7/2
9/2
2
–
–
–
–
–
–
–
–
–
5s 6d
5p 3
5s 2 6d
5s 2 8d
5s 2 4 f
5s 2 4 f
5s 2 4 f
5s 2 6h
5s 2 6h
Term
2
D
232 586ⴰ
2
D
2
D
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
2 ⴰ
H
2 ⴰ
H
J
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
11/2
9/2
1/2
1/2
1/2
7/2
3/2
3/2
5/2
9/2
7/2
1/2
11/2
9/2
3/2
3/2
1/2
1/2
1/2
5/2
3/2
13/2
11/2
3/2
2
2
13/2
11/2
3/2
1/2
1/2
5/2
1/2
1/2
3/2
11/2
9/2
3/2
13/2
11/2
5/2
5/2
3/2
1/2
3/2
3/2
1/2
15/2
13/2
5/2
0.6
0.6
0.5
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
1
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
Classification
Configuration
CBS*
CBS*
CBS
CBS
CBS*
CBS*
CBS
CBS*
CBS*
CBS*
CBS*
CBS
CBS*
CBS*
CBS
CBS
CBS
CBS
CBS
b CBS
CBS
CBS*
CBS*
CBS
2
5s 6h
5s 2 6h
5s 2 6s
5s 2 6s
5s 2 7p
5s5p5d
5s 2 7p
5s 2 6d
5s 2 6d
5s 2 6g
5s 2 6g
5s 2 7p
5s 2 6h
5s 2 6h
5s 2 7p
5s5p 2
5s 2 7s
5s 2 7s
5s 2 8p
5s 2 7d
5s 2 7d
5s 2 7i
5s 2 7i
5s 2 8p
Term
2
ⴰ
H
Hⴰ
2
S
2
S
2 ⴰ
P
300 241ⴰ
2 ⴰ
P
2
D
2
D
2
G
2
G
2 ⴰ
P
2 ⴰ
H
2 ⴰ
H
2 ⴰ
P
2
P
2
S
2
S
2 ⴰ
P
2
D
2
D
2
I
2
I
2 ⴰ
P
2
4.7. Xe VII
Cd isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 105s 2 1 S0
Ionization energy 738 800⫾4000 cm⫺1 共91.6⫾0.5 eV兲
关87KAU兴
A thorough analysis of the spectrum of six times ionized
xenon, Xe VII, was carried out by Churilov and Joshi
关02CHU兴. 59 of the 72 levels in our Xe VII compilation come
from their work since it provides the most complete study of
the levels and corrects some of the earlier analyses. Prior to
this work, partial analyses of the spectrum of Xe VII were
published by several sources 关01GAL兴, 关97WAN兴, 关97CAV兴,
关95LAR兴, 关87KAU兴, 关83BLA兴, 关82OSU兴, 关79KNY兴. We use
seven of the levels determined by Wang et al. 关97WAN兴 for
the 5s6d, 5s7p, and 5s7s levels. We use Blackburn et al.
关83BLA兴 for the 4d 9 5s 2 6p and 4d 9 5s 2 5 f levels and
O’Sullivan 关82OSU兴 for the 4d 9 5s 2 4 f 3 P1 and 3 D1 levels.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5s 8i
5s 2 8i
5s 2 6p
5s 2 6p
5s 2 8s
5s 2 6d
5s 2 8s
5s 2 7p
5s 2 7p
5s 2 7h
5s 2 7h
5s 2 7d
5s 2 7i
5s 2 7i
5s 2 7d
5s 2 4 f
5s 2 7p
5s 2 7p
5s 2 8d
5s 2 8p
5s 2 8p
5s 2 8k
5s 2 8k
5s 2 8d
I
I
2 ⴰ
P
2 ⴰ
P
2
S
2
D
2
S
2 ⴰ
P
2 ⴰ
P
2 ⴰ
H
2 ⴰ
H
2
D
2
I
2
I
2
D
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
2
D
2 ⴰ
P
2 ⴰ
P
2 ⴰ
K
2 ⴰ
K
2
D
2
Three 3 Pⴰ0 levels from Churilov and Joshi 关02CHU兴 were
based on one weak transition each and are denoted by ‘‘?’’ in
the Xe VII level table. We do not use the energy levels of
Gallardo et al. 关01GAL兴 since they disagree with Churilov
and Joshi 关02CHU兴 for many levels. We quote the results to
zero decimal places for levels with a decimal point in the
energy level table. Levels without a decimal point have uncertainties in their tens place for values below 600 000 cm⫺1
and in their hundreds place for values above 600 000 cm⫺1.
Hallin et al. 关82HAL兴 reported seven tentative yrast lines
involving levels ranging from 5g to 9l. Since they are tentative and there are no reported lines connecting these levels
to the other levels in our compilation, we have not included
them.
Xe VII lines have been reported by several sources
关61FAW兴, 关79KNY兴, 关80KER兴, 关82OSU兴, 关83BLA兴,
关87KAU兴, 关91PIN兴, 关95DRU兴, 关95LAR兴, 关97CAV兴,
关97WAN兴, 关01GAL兴, 关02CHU兴. The sources of the lines in
SPECTRAL LINES OF XENON
875
TABLE 6. Sources of Xe VII lines.
Source
Number of
classifications
82OSU
83BLA
95LAR
97CAV
97WAN
01GAL
02CHU
2
4
5
5
10
16
89
Light source
laser produced plasma
laser produced plasma
collision-based spectroscopy
theta pinch
collision-based spectroscopy
discharge tube
Xe-gas-puff low inductance vacuum spark and fast
capillary discharge
our Xe VII line table are summarized in the Xe VII line source
table.
Gallardo et al. 关01GAL兴 classified 110 Xe VII lines. However, only 27 of these lines are consistent with the energy
levels as chosen above. Their study was based on their levels
which disagree with the energy levels used here.
Where duplicate lines exist, the priority order used for
selection was 关02CHU兴, 关87KAU兴, 关97CAV兴, 关01GAL兴,
关79KNY兴, 关61FAW兴, 关83BLA兴, 关82OSU兴, 关97WAN兴,
关95LAR兴, 关95DRU兴, 关91PIN兴, and 关80KER兴. No 关95DRU兴,
关91PIN兴, 关87KAU兴, 关80KER兴, 关79KNY兴, or 关61FAW兴 lines
are in our final list 共see Table 6兲.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe VII levels. Only classifiable lines are included in our compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 with adjusted configuration average energies are used to help resolve choices between multiple possible classifications of lines. Intensities reported are those
given in the stated references and are not on a common scale.
Intensities are not reported for the collision-based spectroscopy results.
The intensity codes given in the Xe VII line table are taken
from the specified sources. Their meaning is stated below:
Wavelength range
共Å兲
Uncertainty
共Å兲
146 –154
107–120
773–3645
668 –1232
849– 4702
360–1958
123–1077
0.05
0.05
0.5–1.0
0.02
0.4 –0.8
0.02
0.008
References
61FAW
B. C. Fawcett, B. B. Jones, and R. Wilson,
Proc. Phys. Soc. London 78, 1223 共1961兲.
79KNY
E. J. Knystautas, J. Sugar, and J. R. Roberts, J.
Opt. Soc. Am. 69, 1726 共1979兲.
80KER
J. A. Kernahan, E. H. Pinnington, J. A. O’Neill,
J. L. Bahr, and K. E. Donnelly, J. Opt. Soc. Am.
70, 1126 共1980兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
82HAL
R. Hallin, J. A. Leavitt, A. Lindgård, P. W.
Rathmann, H. Vach, and E. Veje, Nucl. Instrum.
Methods 202, 41 共1982兲.
82OSU
G. O’Sullivan, J. Phys. B 15, L765 共1982兲.
83BLA
J. Blackburn, P. K. Carroll, J. Costello, and G.
O’Sullivan, J. Opt. Soc. Am. 73, 1325 共1983兲.
87KAU
V. Kaufman and J. Sugar, J. Opt. Soc. Am. B 4,
1919 共1987兲.
91PIN
E. H. Pinnington, J. A. Kernahan, W.
Ansbacher, and A. Tauheed, J. Opt. Soc. Am. B
8, 2233 共1991兲.
95DRU
M. Druetta and D. Hitz, Nucl. Instrum.
Methods B 98, 211 共1995兲.
95LAR
M. O. Larsson, A. M. Gonzalez, R. Hallin, F.
Heijkenskjöld, R. Hutton, A. Langereis, B.
Nyström, G. O’Sullivan, and A. Wännström,
Phys. Scr. 51, 69 共1995兲.
97CAV
G. H. Cavalcanti, F. R. T. Luna, A. G.
Trigueiros, F. Bredice, H. Sobral, R. Hutton,
and M. Wang, J. Opt. Soc. Am. B 14, 2459
共1997兲.
97WAN
M. Wang, A. Arnesen, R. Hallin, F.
Heijkenskjöld, M. O. Larsson, A. Wännström,
A. G. Trigueiros, and A. V. Loginov, J. Opt.
Soc. Am. B 14, 3277 共1997兲.
Symbol
Definition
a
observed in absorption
CBS
lines observed in collision based spectroscopy
bl
blended with Xe IV or Xe V line
?
tentative classification
*
two or more classifications of this line share the
same intensity
01GAL
M. Gallardo, F. Bredice, M. Raineri, A. G.
Trigueiros, and J. G. Reyna Almandos, Eur.
Phys. J. D 15, 307 共2001兲.
The ionization energy was determined by Kaufman and
Sugar 关87KAU兴 by means of spectral analysis.
02CHU
S. S. Churilov and Y. N. Joshi, Phys. Scr. 65, 35
共2002兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
876
E. B. SALOMAN
Energy levels of Xe VII
Energy level
共cm⫺1兲
J
Source
of level
0
02CHU
P
P
3 ⴰ
P
1 ⴰ
P
0
1
2
1
02CHU
02CHU
02CHU
02CHU
3
0
1
2
2
0
02CHU
02CHU
02CHU
02CHU
02CHU
F
F
3 ⴰ
F
1 ⴰ
F
2
3
4
3
02CHU
02CHU
02CHU
02CHU
5s5d
5s5d
5s5d
5s5d
3
D
D
3
D
1
D
1
2
3
2
02CHU
02CHU
02CHU
02CHU
0
0
5s6s
5s6s
3
S
S
1
0
02CHU
02CHU
382 356.
385 422.
386 172.
386 811.
398 027.
399 987.
401 595.
404 979.
406 342.
408 767.
411 551.
416 357.
0
0
0
0
0
0
0
0
0
0
0
0
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
4 f 5p
3
G
F
3
G
3
F
1
F
3
F
3
G
3
D
3
D
3
D
1
G
1
D
3
3
4
2
3
4
5
3
2
1
4
2
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
393 792.
401 413.
404 548.
411 022.
412 567.
417 240.
423 028.
424 188.?
424 567.
425 234.
438 428.
441 376.
1
1
1
1
1
1
1
1
1
1
1
1
5p5d
5p5d
5p5d
5p5d
5p5d
5p5d
5p5d
5p5d
5p5d
5p5d
5p5d
5p5d
2
3
2
1
4
2
3
0
1
2
3
1
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
400 666.?
400 893.
407 802.
408 347.
1
1
1
1
5s6p
5s6p
5s6p
5s6p
0
1
1
2
02CHU
02CHU
02CHU
02CHU
462 702.
462 791.
463 159.
467 700.
1
1
1
1
5s5 f
5s5 f
5s5 f
5s5 f
2
3
4
3
02CHU
02CHU
02CHU
02CHU
468 777.?
470 805.
485 435.
489 957.
1
1
1
1
5p6s
5p6s
5p6s
5p6s
0
1
2
1
02CHU
02CHU
02CHU
02CHU
Parity
Configuration
0.
0
5s 2
96 141.
100 451.
113 676.
143 259.
1
1
1
1
5s5p
5s5p
5s5p
5s5p
223 673.
234 685.
236 100.
251 853.
273 208.
0
0
0
0
0
5p 2
5p 2
5p 2
5p 2
5p 2
272 581.
272 812.
273 245.
279 282.
1
1
1
1
4 f 5s
4 f 5s
4 f 5s
4 f 5s
287 772.
288 712.
290 340.
307 542.
0
0
0
0
354 833.
361 671.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
S
3 ⴰ
3 ⴰ
P
P
1
D
3
P
1
S
3
3 ⴰ
3 ⴰ
3
1
3
3 ⴰ
F
F
1 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1 ⴰ
F
1 ⴰ
P
3 ⴰ
3 ⴰ
P
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
3 ⴰ
F
F
3 ⴰ
F
1 ⴰ
F
3 ⴰ
3 ⴰ
P
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
SPECTRAL LINES OF XENON
877
Energy levels of Xe VII—Continued
Energy level
共cm⫺1兲
Parity
Configuration
475 990
476 220
476 800
0
0
0
5s6d
5s6d
5s6d
3
506 230
0
5s7s
J
Source
of level
D
D
3
D
1
2
3
97WAN
97WAN
97WAN
3
1
97WAN
0
1
2
97WAN
97WAN
97WAN
1
1
02CHU
02CHU
1
1
1
82OSU
82OSU
02CHU
1
1
83BLA
83BLA
1
1
83BLA
83BLA
Term
3
S
3 ⴰ
527 070
527 500
529 340
1
1
1
5s7p
5s7p
5s7p
539 264.
549 828.
1
1
4d 9 5s 2 5p
4d 9 5s 2 5p
650 080
683 150
811 412.
1
1
1
4d 9 5s 2 4 f
4d 9 5s 2 4 f
4d 9 5s 2 4 f
835 110
845 750
1
1
4d 9 5s 2 6p
4d 9 5s 2 6p
3 ⴰ
881 730
935 680
1
1
4d 9 5s 2 5 f
4d 9 5s 2 5 f
3 ⴰ
P
P
3 ⴰ
P
3 ⴰ
1 ⴰ
3
P
Dⴰ
3 ⴰ
P
Dⴰ
1 ⴰ
P
3
P
P
1 ⴰ
P
P
1 ⴰ
Spectral lines of Xe VII
Observed
vacuum
wavelength
共Å兲
106.89
113.43
118.25
119.75
123.242
146.38
153.83
181.876
185.438
245.215
249.445
360.35
366.168
386.560
393.114
393.919
404.635
410.585
413.95
414.666
419.989
426.072
427.183
450.85
457.851
482.877
494.243
521.832
526.644
527.697
528.720
531.179
533.763
533.850
Observed
wave
number
(103 cm⫺1 )
935.5
881.6
845.7
835.1
811.41
683.2
650.1
549.83
539.26
407.805
400.890
277.508
273.099
258.692
254.379
253.859
247.136
243.555
241.575
241.158
238.101
234.702
234.092
221.803
218.412
207.092
202.330
191.633
189.882
189.503
189.136
188.260
187.349
187.319
Intensity
and
comment
80a
50a
30a
10a
30
20
50
75
25
1
55
35
64
54
33
25?
1
81
81
58
28?
1
56
27
34
75
48
18?
10
83
58
77
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
2
2
1
1
1
0
2
0
2
3
1
1
0
2
2
1
1
0.05
0.05
0.05
0.05
0.008
0.05
0.05
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
83BLA
83BLA
83BLA
83BLA
02CHU
82OSU
82OSU
02CHU
02CHU
02CHU
02CHU
01GAL
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
01GAL
02CHU
02CHU
02CHU
02CHU
01GAL
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
Classification
Configuration
2
5s
5s 2
5s 2
5s 2
5s 2
5s 2
5s 2
5s 2
5s 2
5s 2
5s 2
5p 2
5s5p
5s5p
5s5p
5p 2
5p 2
5s5p
5s5d
5s5p
5p 2
5p 2
5p 2
5s5d
5s5p
5s5p
5p 2
5s5p
5p 2
5p 2
5p 2
5s5p
5p 2
5s5p
Term
1
S
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
3
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1
D
3
P
1 ⴰ
P
3
D
3 ⴰ
P
3
P
1
D
3
P
1
D
1 ⴰ
P
3 ⴰ
P
1
D
3 ⴰ
P
3
P
3
P
1
D
3 ⴰ
P
3
P
3 ⴰ
P
1
J
0
0
0
0
0
0
0
0
0
0
0
2
1
0
1
2
0
1
1
2
2
2
1
2
1
1
2
0
1
1
2
1
0
1
Configuration
–
~
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
9
2
4d 5s 5 f
4d 9 5s 2 5 f
4d 9 5s 2 6p
4d 9 5s 2 6p
4d 9 5s 2 4 f
4d 9 5s 2 4 f
4d 9 5s 2 4 f
4d 9 5s 2 5p
4d 9 5s 2 5p
5s6p
5s6p
5s7p
4 f 5p
5s6s
5s6s
5p6s
5p6s
4 f 5p
5s7p
5s6s
5p6s
5p6s
5p6s
5s7p
5s6s
5s5d
5p5d
5s5d
5p5d
5p5d
5p5d
5s5d
5p5d
5s5d
Term
1 ⴰ
P
P
1 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1
D
3
S
3
S
1 ⴰ
P
3 ⴰ
P
3
F
3 ⴰ
P
3
S
1 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
1
S
1
D
1 ⴰ
F
3
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3
D
3 ⴰ
D
3
D
3 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
878
E. B. SALOMAN
Spectral lines of Xe VII—Continued
Observed
vacuum
wavelength
共Å兲
534.966
535.980
543.102
547.780
566.050
571.309
571.656
574.451
576.768
577.63
578.640
578.850
579.15
580.549
584.196
588.717
594.643
601.71
604.913
608.706
624.383
634.144
660.502
667.92
671.02
675.28
687.53
691.98
698.038
721.800
723.701
729.531
731.028
732.518
734.291
737.206
744.961
747.607
748.890
753.652
756.035
756.620
759.107
764.05
765.684
769.534
772.9
779.119
786.329
788.991
797.156
811.544
816.825
818.149
826.386
839.75
842.136
847.421
849.4
863.285
875.422
882.137
Observed
wave
number
(103 cm⫺1 )
186.928
186.574
184.127
182.555
176.663
175.037
174.930
174.079
173.380
173.121
172.819
172.756
172.667
172.251
171.175
169.861
168.168
166.193
165.313
164.283
160.158
157.6929
151.4000
149.719
149.027
148.087
145.448
144.513
143.2587
138.5425
138.1786
137.0744
136.7937
136.5154
136.1858
135.6473
134.2352
133.7601
133.5310
132.6872
132.2690
132.1667
131.7337
130.881
130.6022
129.9488
129.38
128.3501
127.1732
126.7442
125.4460
123.2219
122.4252
122.2271
121.0088
119.083
118.7457
118.0051
117.73
115.8366
114.2306
113.3611
Intensity
and
comment
45
35
20
54
85
66
43
71
27
8
62
10
3
20
26
52
65
2
62
94
71
28
88
20
1
4
5
5
96
86
87
62
66bl
72bl
32
85
87
40
54
46
70
30
75
20
78
52
CBS
79
64
53
56
87
85
78
85
4
37
47
CBS
23
32
18
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
3
1
2
3
2
2
3
2
1
4
0
1
2
3
2
1
1
3
2
3
2
2
3
1
3
2
1
1
1
2
2
1
2
1
2
1
2
2
3
4
3
3
3
2
0
2
5
4
4
3
0
2
4
1
1
3
2
2
2
2
4
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.008
0.02
0.02
0.02
0.02
0.02
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.5
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.4
0.008
0.008
0.008
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
01GAL
02CHU
02CHU
01GAL
02CHU
02CHU
02CHU
02CHU
01GAL
02CHU
02CHU
02CHU
02CHU
02CHU
97CAV
01GAL
01GAL
01GAL
01GAL
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
97CAV
02CHU
02CHU
95LAR
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
01GAL
02CHU
02CHU
97WAN
02CHU
02CHU
02CHU
Classification
Configuration
2
5p
5p 2
5p 2
5p 2
5s5p
5s5p
5s5d
5s5d
5p 2
5p 2
5s5d
5s5p
5s6s
5p 2
5p 2
5p 2
5p 2
5p 2
5p 2
5s5p
5s5d
5p 2
5s5p
5s5d
5p 2
5s5d
5s5p
5s5p
5s 2
5s5p
5s5p
4 f 5s
5s5d
5s5d
4 f 5s
5s5p
5s5p
4 f 5s
4 f 5s
5s5d
4 f 5s
4 f 5s
4 f 5s
5s5d
5s6s
5s5p
5s5d
4 f 5s
4 f 5s
4 f 5s
4 f 5s
5s5p
5s5p
5s5d
5s5p
5s5d
4 f 5s
5s5d
5s5d
5s5d
4 f 5s
4 f 5s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
D
P
3
P
3
P
3 ⴰ
P
3 ⴰ
P
3
D
3
D
3
P
3
P
3
D
3 ⴰ
P
3
S
1
D
3
P
3
P
1
S
3
P
1
D
1 ⴰ
P
1
D
1
D
3 ⴰ
P
3
D
3
P
3
D
1 ⴰ
P
1 ⴰ
P
1
S
3 ⴰ
P
3 ⴰ
P
1 ⴰ
F
3
D
3
D
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3
D
1 ⴰ
F
3 ⴰ
F
3 ⴰ
F
1
D
3
S
1 ⴰ
P
3
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3
D
3 ⴰ
P
3
D
1 ⴰ
F
3
D
1
D
3
D
3 ⴰ
F
3 ⴰ
F
3
J
2
2
0
1
2
2
1
2
2
1
3
1
1
2
2
1
0
1
2
1
2
2
1
2
2
3
1
1
0
0
2
3
1
2
2
1
1
2
3
3
3
3
4
2
1
1
1
4
3
4
2
1
2
3
2
2
3
3
2
2
2
3
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5p5d
5p5d
5s6p
5p5d
5s5d
5s5d
5s5 f
5s5 f
5p5d
5s6p
5s5 f
5p 2
5s7p
5s6p
5p5d
5p5d
5p5d
5s6p
5p5d
5s5d
5s5 f
5p5d
5p 2
5p5d
5s6p
5p5d
5s5d
5s5d
5s5p
5p 2
5p 2
4 f 5p
5p5d
5p5d
4 f 5p
5p 2
5p 2
4 f 5p
4 f 5p
5p5d
4 f 5p
4 f 5p
4 f 5p
5p5d
5p6s
5p 2
5p5d
4 f 5p
4 f 5p
4 f 5p
4 f 5p
5p 2
5p 2
5p5d
5p 2
5s6p
4 f 5p
5s6p
5p5d
5p5d
4 f 5p
4 f 5p
Term
3
ⴰ
D
F
1 ⴰ
P
3 ⴰ
D
3
D
3
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
1 ⴰ
P
3 ⴰ
F
1
S
3 ⴰ
P
3 ⴰ
P
3 ⴰ
D
1 ⴰ
D
1 ⴰ
P
3 ⴰ
P
3 ⴰ
F
1
D
1 ⴰ
F
3 ⴰ
F
3
P
1 ⴰ
F
3 ⴰ
P
1 ⴰ
F
3
D
3
D
1 ⴰ
P
3
P
3
P
1
D
3 ⴰ
P
3 ⴰ
P
3
D
1
D
3
P
3
D
3
D
3 ⴰ
D
1
G
3
D
3
D
1 ⴰ
F
3 ⴰ
P
1
S
3 ⴰ
D
3
G
3
F
3
F
1
F
3
P
1
D
3 ⴰ
F
3
P
1 ⴰ
P
1
F
3 ⴰ
P
3 ⴰ
P
1 ⴰ
D
3
F
3
G
1 ⴰ
SPECTRAL LINES OF XENON
879
Spectral lines of Xe VII—Continued
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
(103 cm⫺1 )
Intensity
and
comment
884.002
885.528
885.787
887.300
888.024
891.443
891.443
910.956
920.870
943.220
949.3
970.170
995.511
997.406
999.64
1016.19
1077.120
1094.4
1231.57
1243.58
1324.8
1327.1
1327.1
1331.63
1460.95
1473.25
1902.3
1949.6
1957.79
113.1219
112.9270
112.8940
112.7015
112.6096
112.1777
112.1777
109.7748
108.5930
106.0198
105.34
103.0747
100.4509
100.2601
100.036
98.4068
92.8402
91.37
81.1972
80.4130
75.48
75.35
75.35
75.0959
68.4486
67.8771
52.568
51.293
51.0780
37
50
33?
72
30
48*
48*
48
84
39
CBS
30
88
67
10
10
84
CBS
20
7
CBS
CBS*
CBS*
6
2
4
CBS
CBS
7
Observed
air
wavelength
共Å兲
Observed
wave
number
(103 cm⫺1 )
Intensity
and
comment
2170.5
2314.9
3537.5
3645.2
4327.8
4702.0
46.058
43.185
28.260
27.426
23.100
21.262
CBS
CBS
CBS
CBS
CBS
CBS
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
4
0
3
3
1
3
3
2
2
1
3
1
1
2
1
2
1
1
0
3
2
1
1
3
2
2
1
0
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.4
0.008
0.008
0.008
0.02
0.02
0.008
0.4
0.02
0.02
0.6
0.6
0.6
0.02
0.02
0.02
0.6
0.6
0.02
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
97WAN
02CHU
02CHU
02CHU
97CAV
97CAV
02CHU
97WAN
97CAV
01GAL
97WAN
97WAN
97WAN
01GAL
01GAL
01GAL
97WAN
97WAN
01GAL
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
Classification
Configuration
5s5d
4 f 5s
5s5d
5s5d
4 f 5s
5s5d
4 f 5s
4 f 5s
5s5p
5s5d
5s6p
4 f 5s
5s 2
5s5d
4 f 5p
5s6p
5s5p
5s5p
4 f 5p
5s5p
5p5d
5s6p
5s6p
5s6p
5s6p
5s6p
5s6d
5s6d
5s6d
Term
3
D
F
3
D
3
D
3 ⴰ
F
3
D
3 ⴰ
F
3 ⴰ
F
1 ⴰ
P
3
D
3 ⴰ
P
1 ⴰ
F
1
S
1
D
3
F
1 ⴰ
P
1 ⴰ
P
1 ⴰ
P
3
D
1 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3
D
3
D
3
D
3 ⴰ
J
1
4
1
2
3
2
4
2
1
1
1
3
0
2
3
1
1
1
1
1
3
1
0
1
2
2
3
2
1
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
3 ⴰ
5s6p
4 f 5p
5s6p
5p5d
4 f 5p
5s6p
4 f 5p
4 f 5p
5p 2
5p5d
5s7s
4 f 5p
5s5p
5s6p
5p6s
5s7s
5p 2
5p 2
5p6s
5p 2
5s6d
5s6d
5s6d
5s6d
5s6d
5s6d
5s7p
5s7p
5s7p
P
G
3 ⴰ
P
3 ⴰ
F
3
F
3 ⴰ
P
3
F
3
G
3
P
3 ⴰ
F
3
S
3
G
3 ⴰ
P
1 ⴰ
P
3 ⴰ
P
3
S
1
D
3
P
1 ⴰ
P
3
P
3
D
3
D
3
D
3
D
3
D
3
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3
Classification
Configuration
5s6s
5p 2
4 f 5s
5p 2
5s7s
5s7s
Term
3
S
D
1 ⴰ
F
3
P
3
S
3
S
1
4.8. Xe VIII
Ag isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 105s 2 S1/2
Ionization energy 854 755⫾33 cm⫺1 共105.976⫾0.004 eV兲
关96WAN兴
Partial analyses of the spectrum of seven times ionized
xenon, Xe VIII, were published by several sources 关02CHU兴,
关96WAN兴, 关95LAR兴, 关95DRU兴, 关84KAU兴, 关83BLA兴,
关82OSU兴, 关81KAU兴, 关79ROB兴. We use the levels determined
by Wang et al. 关96WAN兴 for the 8 – 9s, 8 – 9p, 7 – 9d,
5 f 2 F7/2 , 6 – 9 f , 5 – 9g, 6 – 9h, 7 – 10i, 8 – 10k, and 9l levels. We use Churilov and Yoshi 关02CHU兴 for the 4d 9 5s4 f
levels. We use Larsson et al. 关95LAR兴 for the 7p, 6d, and
4 f levels. We use Kaufman and Sugar 关84KAU兴 for the
4d 9 5s5p levels. We use Kaufman and Sugar 关81KAU兴 for
J
1
2
3
2
1
1
Configuration
–
–
–
–
–
–
5s6p
4 f 5s
5s5d
4 f 5s
5s7p
5s7p
Term
3 ⴰ
P
F
1
D
1 ⴰ
F
3 ⴰ
P
3 ⴰ
P
1 ⴰ
1
3
2
3
2
1
0.5
0.5
1
0.5
0.8
0.8
95LAR
95LAR
95LAR
95LAR
97WAN
97WAN
the 5 – 7s, 5 – 6p, 5d, and 5 f 2 F5/2 levels. On the basis of the
rejection by Kaufman and Sugar 关84KAU兴 of Blackburn
et al. 关83BLA兴 results for the 4d 9 5s5 p levels we have not
included any of the Blackburn et al. 关83BLA兴 levels or the
related work of O’Sullivan 关82OSU兴 in this compilation.
Note that Kaufman and Sugar 关84KAU兴 labeled their levels
with the leading term. As a result, two different levels are
ⴰ
designated 4d 9 5s5 p (3/2,3 P0 ) 3/2
共at 550 449 and 556 619
⫺1
cm 兲. For consistency we maintain their designations. This
only affects the lines 181.670 Å 共with 550 449 cm⫺1 as its
upper level兲 and 179.656 Å 共with 556 619 cm⫺1 as its upper
level兲. We quote the results presented in the Xe VIII level
table to the indicated number of decimal places 共zero兲 for
levels with a decimal point. Levels without a decimal point
have uncertainties in their tens place.
Xe VIII lines have been reported by several sources
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
880
E. B. SALOMAN
关61FAW兴, 关79ROB兴, 关80KER兴, 关81BAS兴, 关81KAU兴,
关82OSU兴, 关83BLA兴, 关84KAU兴, 关95DRU兴, 关95LAR兴,
关96WAN兴, 关02CHU兴. The sources of the lines in our Xe VIII
line table are summarized in the Xe VIII line source table 共see
Table 7兲.
Churilov and Yoshi 关02CHU兴 classified two Xe VIII resonance lines. They remeasured the spectrograms of Kaufman
et al. 关83KAU兴 using improved measurement techniques.
Blackburn et al. 关83BLA兴 classified 18 VUV lines. They
used a laser-produced plasma as their source. The quoted
uncertainty of their wavelength measurements was 0.05 Å.
However, due to the findings of Kaufman and Sugar
关84KAU兴, none of their lines is used here. O’Sullivan
关82OSU兴 classified two VUV lines using the experimental
procedure of Blackburn et al. 关83BLA兴. These lines are also
not used here.
Where duplicate lines exist, the priority order used for
selection was 关02CHU兴, 关84KAU兴, 关81KAU兴, 关79ROB兴,
关61FAW兴, 关95LAR兴, 关96WAN兴, 关95DRU兴, 关81BAS兴, and
关80KER兴. No 关80KER兴 or 关61FAW兴 lines are in our final list.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe VIII levels. Only classifiable lines are included in our
compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 with adjusted configuration average energies are used to help resolve choices between multiple possible classifications of lines. Intensities reported are those
given in the stated references and are not on a common scale.
Intensities are not reported for the collision-based spectroscopy, charge-exchange spectroscopy, or beam foil results.
The intensity codes given in the Xe VIII line table are taken
from the specified sources. Their meaning is stated below:
Symbol
Definition
b
BF
CBS
CES
blend
lines observed in beam foil spectroscopy
lines observed in collision based spectroscopy
lines observed in charge exchange spectroscopy
two or more classifications of this line share the
same intensity
*
The ionization energy was determined by 关96WAN兴 by
means of spectral analysis.
References
61FAW
B. C. Fawcett, B. B. Jones, and R. Wilson,
Proc. Phys. Soc. London 78, 1223 共1961兲.
79ROB
J. R. Roberts, E. J. Knystautas, and J. Sugar, J.
Opt. Soc. Am. 69, 1620 共1979兲.
80KER
J. A. Kernahan, E. H. Pinnington, J. A. O’Neill,
J. L. Bahr, and K. E. Donnelly, J. Opt. Soc. Am.
70, 1126 共1980兲.
81BAS
S. Bashkin, R. Hallin, J. A. Leavitt, U. Litzén,
and D. Walker, Phys. Scr. 23, 5 共1981兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
81KAU
V. Kaufman and J. Sugar, Phys. Scr. 24, 738
共1981兲.
82OSU
G. O’Sullivan, J. Phys. B 15, L765 共1982兲.
83BLA
J. Blackburn, P. K. Carroll, J. Costello, and G.
O’Sullivan, J. Opt. Soc. Am. 73, 1325 共1983兲.
83KAU
V. Kaufman, J. Sugar, and J. L. Tech, J. Opt.
Soc. Am. 73, 691 共1983兲.
84KAU
V. Kaufman and J. Sugar, J. Opt. Soc. Am. B 1,
38 共1984兲.
95DRU
M. Druetta and D. Hitz, Nucl. Instrum.
Methods B 98, 211 共1995兲.
95LAR
M. O. Larsson, A. M. Gonzalez, R. Hallin, F.
Heijkenskjöld, R. Hutton, A. Langereis, B.
Nyström, G. O’Sullivan, and A. Wännström,
Phys. Scr. 51, 69 共1995兲.
96WAN
M. Wang, A. Arnesen, R. Hallin, F.
Heijkenskjöld, A. Langereis, M. O. Larsson, C.
Nordling, and A. Wännström, J. Opt. Soc. Am.
B 13, 1650 共1996兲, J. Opt. Soc. Am. B 14, 1516
共1997兲.
02CHU
S. S. Churilov and Y. N. Yoshi, Phys. Scr. 65, 40
共2002兲.
Energy levels of Xe VIII
Energy level
共cm⫺1兲
Parity
Configuration
0.
0
5s
116 467.
135 052.
1
1
5p
5p
265 161
265 711
1
1
4f
4f
309 888.
312 816.
0
0
5d
5d
2
395 497.
0
6s
2
443 378.
450 773.
1
1
6p
6p
497 579.
1
5f
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
S
2 ⴰ
P
P
2 ⴰ
2 ⴰ
F
F
2 ⴰ
2
D
D
S
2 ⴰ
P
P
2 ⴰ
2 ⴰ
F
J
Source
of level
1/2
81KAU
1/2
3/2
81KAU
81KAU
5/2
7/2
95LAR
95LAR
3/2
5/2
81KAU
81KAU
1/2
81KAU
1/2
3/2
81KAU
81KAU
5/2
81KAU
SPECTRAL LINES OF XENON
881
Energy levels of Xe VIII—Continued
Energy level
共cm⫺1兲
Parity
Configuration
498 018.
1
5f
527 425
528 794
0
0
6d
6d
541 550.
550 449.
555 118.
556 619.
562 724.
564 149.
568 595.
574 228.
585 288.
599 973.
1
1
1
1
1
1
1
1
1
1
4d 9 ( 2 D5/2)5s5p( 3 Pⴰ1 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ0 )
4d 9 ( 2 D5/2)5s5p( 3 Pⴰ2 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ0 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ1 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ1 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ2 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ2 )
4d 9 ( 2 D5/2)5s5p( 1 Pⴰ1 )
4d 9 ( 2 D3/2)5s5p( 1 Pⴰ1 )
565 296.
0
7s
2
2
J
Source
of level
7/2
96WAN
D
D
3/2
5/2
95LAR
95LAR
(5/2,3 Pⴰ1 )
(3/2,3 Pⴰ0 )
(5/2,3 Pⴰ2 )
(3/2,3 Pⴰ0 )
(3/2,3 Pⴰ1 )
(3/2,3 Pⴰ1 )
(3/2,3 Pⴰ2 )
(3/2,3 Pⴰ2 )
(5/2,1 Pⴰ1 )
(3/2,1 Pⴰ1 )
3/2
3/2
1/2
3/2
3/2
1/2
1/2
3/2
3/2
1/2
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
S
1/2
81KAU
G
G
7/2
9/2
96WAN
96WAN
1/2
3/2
95LAR
95LAR
5/2
7/2
96WAN
96WAN
3/2
5/2
96WAN
96WAN
S
1/2
96WAN
G
G
7/2
9/2
96WAN
96WAN
Hⴰ
Hⴰ
9/2
11/2
96WAN
96WAN
1/2
3/2
96WAN
96WAN
5/2
7/2
96WAN
96WAN
3/2
5/2
96WAN
96WAN
S
1/2
96WAN
G
G
7/2
9/2
96WAN
96WAN
Hⴰ
Hⴰ
9/2
11/2
96WAN
96WAN
11/2
13/2
96WAN
96WAN
1/2
3/2
96WAN
96WAN
5/2
7/2
96WAN
96WAN
D
D
3/2
5/2
96WAN
96WAN
G
G
7/2
9/2
96WAN
96WAN
Term
2 ⴰ
F
2
2
570 268
570 268
0
0
5g
5g
589 827
593 781
1
1
7p
7p
616 368
616 708
1
1
6f
6f
634 595
635 355
0
0
7d
7d
2
655 008
0
8s
2
2
2 ⴰ
P
P
2 ⴰ
2 ⴰ
F
F
2 ⴰ
2
D
D
656 891
656 891
0
0
6g
6g
2
659 228
659 228
1
1
6h
6h
2
669 948
672 187
1
1
8p
8p
684 635
684 818
1
1
7f
7f
696 304
696 678
0
0
8d
8d
2
708 690
0
9s
2
2
2
2 ⴰ
P
P
2 ⴰ
2 ⴰ
F
F
2 ⴰ
2
709 360
709 360
0
0
7g
7g
2
711 135
711 135
1
1
7h
7h
2
711 338
711 338
0
0
7i
7i
717 839
719 277
1
1
9p
9p
727 257
727 403
1
1
8f
8f
735 070
735 510
0
0
9d
9d
2
743 475
743 475
0
0
8g
8g
2
2
2
D
D
2
2
I
I
2 ⴰ
P
P
2 ⴰ
2 ⴰ
F
F
2 ⴰ
2
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
882
E. B. SALOMAN
Energy levels of Xe VIII—Continued
Energy level
共cm⫺1兲
Parity
Configuration
744 798
744 798
1
1
8h
8h
744 953
744 953
0
0
8i
8i
744 993
744 993
1
1
8k
8k
755 719
755 757
1
1
9f
9f
766 889
0
767 897
767 897
Term
J
Source
of level
Hⴰ
Hⴰ
9/2
11/2
96WAN
96WAN
I
I
11/2
13/2
96WAN
96WAN
Kⴰ
Kⴰ
13/2
15/2
96WAN
96WAN
2 ⴰ
5/2
7/2
96WAN
96WAN
9g
2
G
9/2
96WAN
1
1
9h
9h
2
Hⴰ
Hⴰ
9/2
11/2
96WAN
96WAN
768 009
768 009
0
0
9i
9i
I
I
11/2
13/2
96WAN
96WAN
768 033
768 033
1
1
9k
9k
2
Kⴰ
Kⴰ
13/2
15/2
96WAN
96WAN
768 039
768 039
0
0
9l
9l
2
15/2
17/2
96WAN
96WAN
784 510
784 510
0
0
10i
10i
2
I
I
11/2
13/2
96WAN
96WAN
784 528
784 528
1
1
10k
10k
Kⴰ
Kⴰ
13/2
15/2
96WAN
96WAN
811 260
811 400
1
1
4d 9 5s( 3 D)4 f
4d 9 5s( 3 D)4 f
1/2
3/2
02CHU
02CHU
2
2
2
2
2
2
2 ⴰ
F
F
2
2
2
2
2
L
L
2
2
2
2 ⴰ
P
P
2 ⴰ
Spectral lines of Xe VIII
Observed
vacuum
wavelength
共Å兲
123.243
123.265
166.674
170.856
174.147
175.872
177.258
177.707
179.656
180.142
181.670
184.655
221.841
222.79
225.541
232.426
255.32
255.68
327.833
328.430
358.384
383.99
499.8
502.7
517.007
Observed
wave
number
(103 cm⫺1 )
811.405
811.260
599.974
585.288
574.228
568.595
564.149
562.724
556.619
555.118
550.449
541.550
450.773
448.85
443.378
430.244
391.67
391.11
305.033
304.479
279.030
260.423
200.08
198.93
193.4210
Intensity
and
comment
20
15
15
100
5
3
35
50
30
5
10
10
15
40b
10
1
40
50
2
5
4
70b
CBS
CBS
50
Term
J
Uncertainty of
observed
wavelength
共Å兲
2 ⴰ
3/2
1/2
1/2
3/2
3/2
1/2
1/2
3/2
3/2
1/2
3/2
3/2
3/2
1/2
1/2
1/2
7/2
9/2
7/2
9/2
1/2
1/2
5/2
7/2
3/2
0.003
0.003
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.005
0.02
0.005
0.005
0.02
0.02
0.005
0.005
0.005
0.02
0.4
0.4
0.005
Classification
Configuration
5s
5s
5s
5s
5s
5s
5s
5s
5s
5s
5s
5s
5s
5p
5s
5p
4f
4f
4f
4f
5p
5p
6d
6d
5p
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
S
S
2
S
2
S
2
S
2
S
2
S
2
S
2
S
2
S
2
S
2
S
2
S
2 ⴰ
P
2
S
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
2
D
2
D
2 ⴰ
P
2
J
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
1/2
3/2
5/2
7/2
5/2
7/2
1/2
3/2
3/2
5/2
1/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
9
3
4d 5s( D)4 f
4d 9 5s( 3 D)4 f
9 2
4d ( D3/2)5s5p( 1 Pⴰ1 )
4d 9 ( 2 D5/2)5s5p( 1 Pⴰ1 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ2 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ2 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ1 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ1 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ0 )
4d 9 ( 2 D5/2)5s5p( 3 Pⴰ2 )
4d 9 ( 2 D3/2)5s5p( 3 Pⴰ0 )
4d 9 ( 2 D5/2)5s5p( 3 Pⴰ1 )
6p
7s
6p
7s
6g
6g
5g
5g
6s
6s
8f
8f
5d
P
P
(3/2,1 Pⴰ1 )
(5/2,1 Pⴰ1 )
(3/2,3 Pⴰ2 )
(3/2,3 Pⴰ2 )
(3/2,3 Pⴰ1 )
(3/2,3 Pⴰ1 )
(3/2,3 Pⴰ0 )
(5/2,3 Pⴰ2 )
(3/2,3 Pⴰ0 )
(5/2,3 Pⴰ1 )
2 ⴰ
P
2
S
2 ⴰ
P
2
S
2
G
2
G
2
G
2
G
2
S
2
S
2 ⴰ
F
2 ⴰ
F
2
D
2 ⴰ
Source
of
line
02CHU
02CHU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
84KAU
81KAU
79ROB
81KAU
81KAU
79ROB
79ROB
81KAU
81KAU
81KAU
79ROB
96WAN
96WAN
81KAU
SPECTRAL LINES OF XENON
883
Spectral lines of Xe VIII—Continued
Observed
vacuum
wavelength
共Å兲
525.3
525.3
532.791
540.04
541.29
562.547
571.894
628.6
628.6
636.5
665.7
709.9
709.9
709.9
724.96
740.458
749.2
820.0
825.7
830.7
858.607
870.3
873.0
919.3
919.3
934.7
1087.2
1124.1
1124.1
1124.1
1166.7
1166.7
1190.0
1200.3
1251.0
1251.0
1281.7
1304.6
1363.1
1363.1
1365.4
1365.4
1375.9
1384.1
1418.8
1507.2
1535.4
1535.4
1538.6
1580.0
1591.8
1602.5
1684.6
1691.8
1708.2
1708.2
1758.3
1758.3
1763.8
1763.8
1808.7
1844.6
1844.6
1919.1
1919.1
1971.7
1998.4
Observed
wave
number
(103 cm⫺1 )
190.37
190.37
187.6909
185.171
184.744
177.7629
174.8576
159.08
159.08
157.11
150.22
140.86
140.86
140.86
137.939
135.0515
133.48
121.95
121.11
120.38
116.4677
114.90
114.55
108.78
108.78
106.99
91.98
88.96
88.96
88.96
85.71
85.71
84.03
83.31
79.94
79.94
78.02
76.65
73.36
73.36
73.24
73.24
72.68
72.25
70.48
66.35
65.13
65.13
64.99
63.29
62.82
62.402
59.36
59.11
58.54
58.54
56.873
56.873
56.696
56.696
55.288
54.212
54.212
52.108
52.108
50.718
50.040
Intensity
and
comment
CBS*
CBS*
1
50
10
50
5
CES*
CES*
CBS
CBS
CBS*
CBS*
CBS*
10
500
CBS
CBS
CBS
CBS
500
CBS
CBS
CBS*
CBS*
CBS
CBS
CBS*
CBS*
CBS*
CBS*
CBS*
CBS
CBS
CBS*
CBS*
CBS
CBS
CBS*
CBS*
CBS*
CBS*
BF
BF
CBS
CBS
CBS*
CBS*
CBS
CBS
CBS
CBS
CBS
CBS
CBS*
CBS*
CBS*
CBS*
CBS*
CBS*
CBS
BF*
BF*
BF*
BF*
CBS
CBS
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3/2
1/2
5/2
7/2
5/2
5/2
3/2
7/2
9/2
5/2
9/2
3/2
9/2
11/2
3/2
3/2
1/2
1/2
5/2
7/2
1/2
1/2
1/2
13/2
11/2
3/2
7/2
9/2
11/2
5/2
11/2
13/2
3/2
1/2
5/2
3/2
5/2
3/2
11/2
13/2
15/2
13/2
7/2
9/2
7/2
3/2
1/2
3/2
3/2
5/2
1/2
1/2
5/2
7/2
11/2
9/2
13/2
11/2
13/2
15/2
3/2
9/2
11/2
11/2
13/2
5/2
5/2
0.4
0.4
0.005
0.02
0.02
0.005
0.005
0.5
0.5
0.4
0.4
0.4
0.4
0.4
0.02
0.005
0.4
0.4
0.4
0.4
0.005
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.6
0.6
0.6
0.6
0.6
0.6
0.5
0.5
0.6
0.6
0.6
0.6
0.5
0.5
0.6
0.5
0.6
0.6
0.5
0.6
0.6
0.5
0.6
0.6
0.6
0.6
0.6
0.6
0.6
0.6
0.5
0.5
0.5
0.5
0.5
0.6
0.6
96WAN
96WAN
81KAU
79ROB
79ROB
81KAU
81KAU
95DRU
95DRU
96WAN
96WAN
96WAN
96WAN
96WAN
79ROB
81KAU
96WAN
96WAN
96WAN
96WAN
81KAU
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
95LAR
95LAR
96WAN
96WAN
96WAN
96WAN
81BAS
81BAS
96WAN
95LAR
96WAN
96WAN
95LAR
96WAN
96WAN
95LAR
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
95LAR
81BAS
81BAS
81BAS
81BAS
96WAN
96WAN
Classification
Configuration
6d
6d
5d
5d
5d
5p
5p
5f
5f
6d
6f
5d
5g
5g
5d
5s
5d
6p
7d
7d
5s
7p
6p
6h
6h
7s
7d
5g
5g
6d
6h
6h
6p
7d
6f
6f
6p
6p
7h
7h
7i
7i
5f
5f
6g
6d
7p
8p
6d
8p
8s
6d
8d
8d
7g
7g
7h
7h
7i
7i
6s
6g
6g
6h
6h
7f
7d
Term
2
D
D
2
D
2
D
2
D
2 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2
D
2 ⴰ
F
2
D
2
G
2
G
2
D
2
S
2
D
2 ⴰ
P
2
D
2
D
2
S
2 ⴰ
P
2 ⴰ
P
2 ⴰ
H
2 ⴰ
H
2
S
2
D
2
G
2
G
2
D
2 ⴰ
H
2 ⴰ
H
2 ⴰ
P
2
D
2 ⴰ
F
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2 ⴰ
F
2 ⴰ
F
2
G
2
D
2 ⴰ
P
2 ⴰ
P
2
D
2 ⴰ
P
2
S
2
D
2
D
2
D
2
G
2
G
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2
S
2
G
2
G
2 ⴰ
H
2 ⴰ
H
2 ⴰ
F
2
D
2
J
5/2
3/2
3/2
5/2
5/2
3/2
3/2
5/2
7/2
3/2
7/2
3/2
7/2
9/2
5/2
1/2
3/2
1/2
3/2
5/2
1/2
3/2
3/2
11/2
9/2
1/2
5/2
7/2
9/2
3/2
9/2
11/2
1/2
3/2
7/2
5/2
3/2
3/2
9/2
11/2
13/2
11/2
5/2
7/2
9/2
3/2
1/2
1/2
5/2
3/2
1/2
3/2
3/2
5/2
9/2
7/2
11/2
9/2
11/2
13/2
1/2
7/2
9/2
9/2
11/2
7/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
9p
9p
5f
5f
5f
5d
5d
6g
6g
7f
9g
6p
7h
7h
6p
5p
6p
7s
9f
9f
5p
9s
7s
9i
9i
8p
8f
6h
6h
6f
8i
8i
6d
9p
8d
8d
6d
6d
10i
10i
10k
10k
5g
5g
8f
7p
8s
9d
7p
9d
9p
7p
9f
9f
9h
9h
9i
9i
9k
9k
6p
7h
7h
7i
7i
9d
7f
Term
2 ⴰ
P
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
F
2
D
2
D
2
G
2
G
2 ⴰ
F
2
G
2 ⴰ
P
2 ⴰ
H
2 ⴰ
H
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2
S
2 ⴰ
F
2 ⴰ
F
2 ⴰ
P
2
S
2
S
2
I
2
I
2 ⴰ
P
2 ⴰ
F
2 ⴰ
H
2 ⴰ
H
2 ⴰ
F
2
I
2
I
2
D
2 ⴰ
P
2
D
2
D
2
D
2
D
2
I
2
I
2 ⴰ
K
2 ⴰ
K
2
G
2
G
2 ⴰ
F
2 ⴰ
P
2
S
2
D
2 ⴰ
P
2
D
2 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2 ⴰ
K
2 ⴰ
K
2 ⴰ
P
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2
D
2 ⴰ
F
2 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
884
E. B. SALOMAN
Spectral lines of Xe VIII—Continued
Observed
air
wavelength
共Å兲
2021.0
2087.3
2122.2
2154.9
2233.5
2235.1
2404.6
2448.9
2467.6
2487.8
2516.8
2516.8
2526.4
2526.4
2710.6
2737.9
2821.0
2821.0
2829.0
2953.2
2953.2
2970.7
2970.7
3229.8
3248.4
3253.7
3351.2
3511.6
4079.0
4079.0
4093.5
4093.5
4307.1
4307.1
4331.6
4331.6
4337.9
4337.9
4423.7
4642.4
4841.4
4937.6
5819.5
Observed
wave
number
(103 cm⫺1 )
49.465
47.894
47.106
46.391
44.759
44.727
41.574
40.822
40.513
40.184
39.721
39.721
39.570
39.570
36.881
36.514
35.438
35.438
35.338
33.852
33.852
33.652
33.652
30.953
30.776
30.725
29.831
28.469
24.509
24.509
24.422
24.422
23.211
23.211
23.080
23.080
23.046
23.046
22.599
21.535
20.649
20.247
17.179
Intensity
and
comment
CBS
CBS
CBS
CBS
CBS
CBS
CBS
CBS
CBS
CBS
CBS*
CBS*
CBS*
CBS*
CBS
CBS
CBS*
CBS*
CBS
bBF*
bBF*
BF*
BF*
CBS
CBS
CBS
CBS
CBS
CBS*
CBS*
CBS*
CBS*
CBS*
CBS*
CBS*
CBS*
CBS*
CBS*
CBS
CBS
CBS
CBS
CBS
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
7/2
1/2
5/2
7/2
3/2
3/2
5/2
3/2
7/2
9/2
11/2
13/2
15/2
13/2
3/2
1/2
9/2
11/2
1/2
11/2
13/2
13/2
15/2
5/2
5/2
7/2
3/2
3/2
1/2
5/2
9/2
11/2
13/2
11/2
13/2
15/2
15/2
17/2
3/2
1/2
5/2
7/2
3/2
0.6
0.5
0.5
0.6
0.6
0.5
0.6
0.6
0.5
0.6
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.5
0.5
0.5
0.5
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
96WAN
95LAR
95LAR
96WAN
96WAN
95LAR
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
81BAS
81BAS
81BAS
81BAS
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
96WAN
Classification
Configuration
7d
6s
4f
7g
7p
4f
7p
7p
6f
6f
8h
8h
8i
8i
7d
8p
7g
7g
7d
7h
7h
7i
7i
8d
5f
8d
5f
7s
7s
8p
8g
8g
8h
8h
8i
8i
8k
8k
8d
8d
9d
9d
8s
Term
2
D
S
2 ⴰ
F
2
G
2 ⴰ
P
2 ⴰ
F
2 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2
D
2 ⴰ
P
2
G
2
G
2
D
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2
D
2 ⴰ
F
2
D
2 ⴰ
F
2
S
2
S
2 ⴰ
P
2
G
2
G
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2 ⴰ
K
2 ⴰ
K
2
D
2
D
2
D
2
D
2
S
2
J
5/2
1/2
7/2
9/2
1/2
5/2
3/2
3/2
5/2
7/2
9/2
11/2
13/2
11/2
5/2
3/2
7/2
9/2
3/2
9/2
11/2
11/2
13/2
3/2
7/2
5/2
5/2
1/2
1/2
3/2
7/2
9/2
11/2
9/2
11/2
13/2
13/2
15/2
5/2
3/2
3/2
5/2
1/2
4.9. Xe IX
Pd isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 10 1 S0
Ionization energy 1 450 500⫾1 000 cm⫺1 共179.85⫾0.10
eV兲 关 02CHUa兴
An analysis of the spectrum of eight times ionized xenon,
Xe IX, Pd-like xenon was published by Churilov et al.
关 02CHUb兴 . The uncertainty of their levels is about 20 cm⫺1
with respect to the ground state and 5 cm⫺1 relative to other
levels. Five additional levels 共those involving the 4d 9 6 p,
4d 9 7p, and 4d 9 6 f configurations兲 are from Churilov and
Joshi 关 02CHUa兴 with uncertainties of about 20 cm⫺1 for levels below 1 100 000 cm⫺1 and 75 cm⫺1 for higher levels. We
do not use the levels reported by Callegari et al. 关02CAL兴
because they disagree with 关 02CHUb兴 for most levels other
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
7f
6p
5d
9f
7d
5d
7d
7d
6g
6g
10i
10i
10k
10k
8p
9s
8h
8h
8p
8i
8i
8k
8k
8f
6d
8f
6d
7p
7p
8d
9h
9h
9i
9i
9k
9k
9l
9l
9p
9p
9f
9f
8p
Term
2 ⴰ
F
P
2
D
2 ⴰ
F
2
D
2
D
2
D
2
D
2
G
2
G
2
I
2
I
2 ⴰ
K
2 ⴰ
K
2 ⴰ
P
2
S
2 ⴰ
H
2 ⴰ
H
2 ⴰ
P
2
I
2
I
2 ⴰ
K
2 ⴰ
K
2 ⴰ
F
2
D
2 ⴰ
F
2
D
2 ⴰ
P
2 ⴰ
P
2
D
2 ⴰ
H
2 ⴰ
H
2
I
2
I
2 ⴰ
K
2 ⴰ
K
2
L
2
L
2 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2 ⴰ
P
2 ⴰ
than those belonging to the 4d 9 5 p configuration. The LS
designation for some levels has very little physical significance and may not even be the largest eigenvector component.
Churilov et al. 关 02CHUb兴 was the source of 108 classified
Xe IX lines in our Xe IX line list. They used a fast 40 kV
capillary discharge with inductive storage as their source.
The uncertainty of their wavelength measurements is 0.003
Å at wavelengths between 90–150 Å and 0.007–0.010 Å at
wavelengths between 300 and 800 Å, respectively.
Churilov and Joshi 关 02CHUa兴 was the source of five Xe IX
classified resonance lines in the list. They remeasured the
spectrograms of 关83KAU兴 using improved measurement
techniques. The uncertainty of their wavelength measurements is 0.003 Å at wavelengths longer than 90 and 0.006 Å
SPECTRAL LINES OF XENON
885
TABLE 7. Sources of Xe VIII lines.
Source
Number of
classifications
Light source
Wavelength range
共Å兲
Uncertainty
共Å兲
79ROB
81BAS
81KAU
84KAU
95DRU
95LAR
96WAN
02CHU
7
10
12
10
2
9
83
2
theta pinch
beam-foil spectroscopy
modified triggered spark initiated by a puff of Xe gas
high-voltage spark discharge
charge-exchange spectroscopy
collision-based spectroscopy
collision-based spectroscopy
modified triggered spark initiated by a puff of Xe gas
223–725
1376 –2971
222– 859
167–185
629
1282–2235
500–5820
123
0.02
0.5
0.005
0.005
0.5
0.5
0.4 –0.8
0.003
at shorter wavelengths. 关83KAU兴 used a modified triggered
spark initiated by a puff of xenon gas as their source.
Callegari et al. 关02CAL兴 was the source of 31 line classifications in our list. They classified 109 lines but only 61 of
them are consistent with the energy levels chosen above.
They used a capillary pulsed discharge as their source. The
uncertainty of their wavelength measurements is 0.02 Å.
Where duplicate lines exist, the priority order used for
selection was 关 02CHUb兴 , 关 02CHUa兴 , then 关02CAL兴. Earlier
work with greater wavelength uncertainty was carried out by
关61FAW兴, 关64FAW兴, 关82SUG兴, 关82OSU兴, 关83BLA兴,
关94KAM兴, and 关96LEM兴. Any lines from these references
were superseded by those from the three above.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe IX levels. Only classifiable lines are included in our compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 with adjusted configuration average energies are used to help resolve choices between multiple possible classifications of lines. Intensities reported are those
given in the stated references and are not on a common scale.
The intensity codes given in the Xe IX line table are taken
from the specified sources. Their meaning is stated below:
References
61FAW
B. C. Fawcett, B. B. Jones, and R. Wilson,
Proc. Phys. Soc. London 78, 1223 共1961兲.
64FAW
B. C. Fawcett, A. H. Gabriel, B. B. Jones, and
N. J. Peacock, Proc. Phys. Soc. London 84, 257
共1964兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
82OSU
G. O’Sullivan, J. Phys. B 15, L765 共1982兲.
82SUG
J. Sugar and V. Kaufman, Phys. Scr. 26, 419
共1982兲.
83BLA
J. Blackburn, P. K. Carroll, J. Costello, and G.
O’Sullivan, J. Opt. Soc. Am. 73, 1325 共1983兲.
83KAU
V. Kaufman, J. Sugar, and J. L. Tech, J. Opt.
Soc. Am. 73, 691 共1983兲.
94KAM
P. van Kampen, R. Hallin, F. Heijkenskjöld, A.
Langereis, M. O. Larsson, C. Nordling, B.
Nyström, G. O’Sullivan, and A. Wännström,
Phys. Scr. 49, 198 共1994兲.
96LEM
B. E. Lemoff, G. Y. Yin, C. L. Gordon III, C. P.
J. Barty, and S. E. Harris, J. Opt. Soc. Am. B 13,
180 共1996兲.
Symbol
Definition
02CAL
m
b
?
masked line
blend
tentative classification
two or more classifications of this line share the
same intensity
F. Callegari, M. Gallardo, M. Raineri, A. G.
Trigueiros, and J. G. Reyna Almandos, J.
Quant. Spectrosc. Radiat. Transfer 73, 13
共2002兲.
02CHUa
S. S. Churilov and Y. N. Yoshi, Phys. Scr. 65, 40
共2002兲.
02CHUb
S. S. Churilov, A. N. Ryabtsev, W.-Ü. L.
Tchang-Brillet, and J.-F. Wyart, Phys. Scr. 66,
293 共2002兲.
*
The ionization energy was determined by Churilov and
Joshi 关 02CHUa兴 by means of spectral analysis.
Energy levels of Xe IX
Energy level
共cm⫺1兲
0.
453 468.
456 956.
470 048.
J
Source
of level
S
0
02CHUb
D
D
3
D
3
2
1
02CHUb
02CHUb
02CHUb
Parity
Configuration
0
4d 10
1
0
0
0
9
3
4d 5s
4d 9 5s
4d 9 5s
Term
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
886
E. B. SALOMAN
Energy levels of Xe IX—Continued
Energy level
共cm⫺1兲
Parity
Configuration
473 496.
0
4d 9 5s
575 438.
578 986.
593 154.
594 522.
596 854.
602 541.
604 877.
605 410.
607 906.
616 157.
618 269.
621 147.
1
1
1
1
1
1
1
1
1
1
1
1
9
4d 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
P
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
1 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
1 ⴰ
F
3 ⴰ
D
3 ⴰ
D
665 447.?
696 312.
832 414.
1
1
1
4d 9 4 f
4d 9 4 f
4d 9 4 f
3
780 792.
788 522.
790 022.
790 742.
790 854.
792 488.
795 332.
796 070.
797 063.
798 896.
803 860.
805 240.
807 691.
809 314.
810 825.
811 675.
813 696.
843 962.
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
963 320.
972 620.
1
1
4d 9 6p
4d 9 6p
3 ⴰ
995 359.
995 961.
998 024.
998 220.
998 989.
999 785.
1 000 432.
1 001 354.
1 004 493.
1 012 122.
1 013 161.?
1 014 147.
1 015 439.
1 017 029.
1 017 377.
1 036 821.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
3
1 130 660
1 142 635?
1
1
4d 9 7p
4d 9 7p
3 ⴰ
1 170 685
1
4d 9 6 f
1 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
J
Source
of level
2
02CHUb
2
3
2
1
4
2
1
3
0
3
1
2
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
P
Dⴰ
1 ⴰ
P
1
1
1
02CHUb
02CHUb
02CHUb
3
1
4
2
5
1
3
3
2
4
0
1
3
1
4
2
2
3
0
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
1 ⴰ
P
P
1
1
02CHUa
02CHUa
Hⴰ
Hⴰ
1 ⴰ
D
3 ⴰ
F
3 ⴰ
F
1 ⴰ
G
3 ⴰ
G
1 ⴰ
F
3 ⴰ
D
3 ⴰ
H
1 ⴰ
H
3 ⴰ
F
3 ⴰ
D
3 ⴰ
G
3 ⴰ
G
1 ⴰ
P
6
5
2
3
4
4
5
3
1
4
5
2
3
4
3
1
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
1
1
02CHUa
02CHUa
1
02CHUa
Term
1
D
3 ⴰ
3 ⴰ
3 ⴰ
S
G
3
D
3
G
1
P
3
D
1
F
3
P
3
F
3
P
3
P
3
G
3
D
1
G
1
D
3
F
3
F
1
S
3
3
P
P
1 ⴰ
P
SPECTRAL LINES OF XENON
887
Spectral lines of Xe IX
Observed
vacuum
wavelength
共Å兲
85.420
87.517
88.444
96.449
99.553
102.815
103.808
120.133
143.614
150.275
161.742
165.323
400.906
418.257
426.07
430.52
435.12
436.41
442.52
443.080
444.23
450.44
454.32
457.624
458.54
458.54
459.407
460.719
462.229
462.319
464.19
466.010
466.09
468.386
469.10
470.64
471.498
473.864
474.601
475.12
476.892
477.240
477.685
478.10
480.08
480.08
480.20
480.313
482.068
482.695
483.367
483.556
484.139
484.258
484.365
485.38
485.56
486.070
486.30
486.959
487.131
487.285
Observed
wave
number
(103 cm⫺1 )
1170.69
1142.64
1130.66
1036.82
1004.49
972.62
963.32
832.41
696.311
665.447
618.269
604.877
249.435
239.087
234.703
232.277
229.822
229.142
225.978
225.693
225.109
222.005
220.109
218.520
218.083
218.083
217.672
217.052
216.343
216.301
215.429
214.588
214.551
213.499
213.174
212.477
212.090
211.031
210.703
210.473
209.691
209.538
209.343
209.161
208.299
208.299
208.247
208.198
207.440
207.170
206.882
206.801
206.552
206.501
206.456
206.024
205.948
205.732
205.634
205.356
205.284
205.219
Intensity
and
comment
3
2
5?
35
10
10
12
200
90
5
650
950
26
171
2
2
1
1
2
31
9
1
1
90
1*
1*
99
224
102
83
4
300m
3
223
5
4
276
66
55
1b
103
374
115
1
4b*
4b*
1
59
160
108
148
73
71
118
142
2
5
57
4
229
123
64
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
1
1
1
1
1
1
1
1
1
0
0
3
1
3
1
1
0
1
3
3
2
2
4
2
3
3
2
1
2
1
3
1
4
3
2
1
4
5
4
1
2
3
2
4
3
5
2
4
2
3
4
2
3
2
3
1
1
3
5
0.006
0.006
0.006
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.007
0.007
0.02
0.02
0.02
0.02
0.02
0.007
0.02
0.02
0.02
0.007
0.02
0.02
0.007
0.007
0.007
0.007
0.02
0.007
0.02
0.007
0.02
0.02
0.007
0.007
0.007
0.02
0.008
0.008
0.008
0.02
0.02
0.02
0.02
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.02
0.02
0.008
0.02
0.008
0.008
0.008
02CHUa
02CHUa
02CHUa
02CHUb
02CHUb
02CHUa
02CHUa
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CAL
02CAL
02CAL
02CAL
02CAL
02CHUb
02CAL
02CAL
02CAL
02CHUb
02CAL
02CAL
02CHUb
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CAL
02CHUb
02CAL
02CAL
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
02CAL
02CAL
02CAL
02CAL
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CAL
02CAL
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
Classification
Configuration
10
4d
4d 10
4d 10
4d 10
4d 10
4d 10
4d 10
4d 10
4d 10
4d 10
4d 10
4d 10
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5d
4d 9 5d
Term
1
S
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
3 ⴰ
P
1 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3
D
1
D
3 ⴰ
D
3
F
1
F
1
F
3 ⴰ
F
3
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3
G
3
G
3 ⴰ
F
3 ⴰ
P
1 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3
G
3
D
3
G
1
P
3
G
1 ⴰ
P
1
D
3
D
3
D
1
F
1 ⴰ
P
3
D
3
P
3 ⴰ
P
3
P
3
G
1
J
Configuration
Term
0
0
0
0
0
0
0
0
0
0
0
0
1
1
3
2
2
1
2
1
2
3
3
2
2
3
2
2
3
1
2
2
2
3
1
4
2
3
2
4
5
3
1
2
3
2
5
2
4
1
3
1
2
3
1
3
1
3
0
2
2
5
9
1 ⴰ
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4d 6 f
4d 9 7p
4d 9 7p
4d 9 5 f
4d 9 5 f
4d 9 6p
4d 9 6p
4d 9 4 f
4d 9 4 f
4d 9 4 f
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5 f
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5 f
4d 9 5 f
P
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
1
S
1
S
3
F
3
D
3
G
1 ⴰ
P
1 ⴰ
P
1
S
1 ⴰ
P
3 ⴰ
G
3 ⴰ
D
3
F
3 ⴰ
F
3
F
1
D
3
D
1
F
1
D
1
P
3
D
3
D
3
D
3
D
1
G
3
G
3
D
3
P
3 ⴰ
F
3 ⴰ
G
3
G
3
P
3
F
3
F
1
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
H
1 ⴰ
D
3 ⴰ
H
3
F
3 ⴰ
G
3 ⴰ
F
3 ⴰ
F
1 ⴰ
F
1
D
3 ⴰ
F
3 ⴰ
D
3
S
1 ⴰ
F
3 ⴰ
H
1 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
888
E. B. SALOMAN
Spectral lines of Xe IX—Continued
Observed
vacuum
wavelength
共Å兲
488.718
488.718
489.110
489.300
490.564
490.763
491.719
491.804
492.817
493.343
494.614
495.231
495.68
496.162
499.478
500.532
501.679
502.566
503.84
505.821
506.230
509.332
510.30
511.159
511.52
515.11
515.762
516.17
516.714
517.050
517.714
518.23
518.700
519.347
521.730
521.783
523.037
523.20
526.523
527.206
527.929
528.876
531.040
534.528
537.701
538.820
541.665
546.118
547.309
550.21
561.013
596.379
609.050
614.670
619.909
628.144
658.146
661.812
670.810
673.602
674.673
676.040
Observed
wave
number
(103 cm⫺1 )
204.617
204.617
204.453
204.374
203.847
203.764
203.368
203.333
202.915
202.699
202.178
201.926
201.743
201.547
200.209
199.787
199.331
198.979
198.476
197.698
197.539
196.336
195.963
195.634
195.496
194.133
193.888
193.735
193.531
193.405
193.157
192.965
192.790
192.549
191.670
191.651
191.191
191.131
189.925
189.679
189.419
189.080
188.310
187.081
185.977
185.591
184.616
183.111
182.712
181.749
178.249
167.679
164.190
162.689
161.314
159.199
151.942
151.100
149.0735
148.4556
148.2200
147.9202
Intensity
and
comment
178*
178*
151
85
266b
73
232
144
71
154
169
70
3
69
100
79
30
46
3
51
309
133
4
94
2
3
457
6
185
350m
354
4b
346
393
150
538
173
5
205
183
110
119
162
195
160
114
100
234
239
1
97
61
132
80
99
100
470
260
75
239
244
200m
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
6
3
4
0
5
3
5
4
2
3
3
4
3
2
4
1
3
1
3
1
3
1
1
3
2
2
5
4
2
2
4
3
3
3
4
4
2
5
3
2
1
3
1
3
1
1
2
4
1
1
1
2
2
3
1
3
3
2
2
3
1
1
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.02
0.008
0.02
0.02
0.008
0.02
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.008
0.02
0.008
0.008
0.008
0.008
0.008
0.008
0.009
0.009
0.009
0.009
0.009
0.009
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CAL
02CAL
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CAL
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
Classification
Configuration
9
4d 5d
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5p
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5d
4d 9 5p
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
3
G
D
1
F
3 ⴰ
P
1
G
3
F
3
F
3
F
3 ⴰ
F
1 ⴰ
D
3 ⴰ
F
3
F
3
F
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3 ⴰ
F
1 ⴰ
P
3 ⴰ
F
3 ⴰ
F
1 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
3
P
3 ⴰ
F
3
G
1 ⴰ
D
3 ⴰ
D
1 ⴰ
F
3
G
1 ⴰ
D
3 ⴰ
D
3 ⴰ
F
3 ⴰ
D
1 ⴰ
P
1
G
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
F
1 ⴰ
D
3 ⴰ
D
1 ⴰ
P
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1
P
1 ⴰ
D
3
D
3
D
3
D
3
D
3
D
3
D
3
D
3
D
3
D
3
D
3
D
1
J
Configuration
5
2
3
1
4
2
4
3
2
2
2
4
3
1
4
0
2
1
4
2
3
1
0
4
1
1
4
3
2
1
3
3
2
2
4
3
1
4
3
2
1
3
2
3
1
1
3
3
2
1
2
3
2
3
2
2
3
1
3
2
1
2
9
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4d 5 f
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5 f
4d 9 5 f
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5 f
4d 9 5d
4d 9 5 f
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5 f
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5 f
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 5d
4d 9 6p
4d 9 5d
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
Term
3
ⴰ
H
Dⴰ
1 ⴰ
G
3
P
1 ⴰ
H
3 ⴰ
D
3 ⴰ
G
3 ⴰ
G
3
P
3
G
1
F
3 ⴰ
F
3 ⴰ
D
3
P
3
F
3
D
3
D
3
P
1
F
1
P
3
F
1
P
3
P
3
D
3
D
1 ⴰ
D
3
G
3 ⴰ
F
3
P
3
F
1
G
3 ⴰ
F
1
F
3
F
3
G
3
F
3
P
3 ⴰ
G
1
F
1
D
3
D
3
G
1
P
3
D
1
P
3
P
3
D
3
G
3
P
1 ⴰ
P
3
S
3 ⴰ
D
3 ⴰ
D
1 ⴰ
F
3 ⴰ
D
1 ⴰ
F
3 ⴰ
D
3 ⴰ
D
1 ⴰ
D
3 ⴰ
D
3 ⴰ
D
1 ⴰ
P
3
SPECTRAL LINES OF XENON
889
Spectral lines of Xe IX—Continued
Observed
vacuum
wavelength
共Å兲
677.280
686.885
690.731
697.417
700.962
725.378
726.923
734.224
741.683
754.770
758.066
761.125
774.916
796.712
812.297
819.470
819.875
826.270
835.729
844.006
Observed
wave
number
(103 cm⫺1 )
147.6494
145.5848
144.7742
143.3862
142.6611
137.8592
137.5662
136.1982
134.8285
132.4907
131.9146
131.3845
129.0462
125.5159
123.1077
122.0301
121.9698
121.0258
119.6560
118.4826
Intensity
and
comment
300m
256
103
494
396
107
148
80
152
121
131
731b
134
168
253
390
404
258
224
149
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
2
2
1
4
3
0
1
2
1
2
3
1
2
3
2
3
2
1
2
2
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.010
0.010
0.010
0.010
0.010
0.010
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
02CHUb
Classification
Configuration
9
4d 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
4d 9 5s
Term
1
D
D
1
D
3
D
1
D
3
D
3
D
3
D
3
D
3
D
1
D
1
D
1
D
3
D
3
D
3
D
3
D
1
D
1
D
3
D
3
4.10. Xe X
Rh isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 9 2 D5/2
Ionization energy 1 627 000 cm⫺1 共201.7 eV兲 关70CAR兴
A partial analysis of the spectrum of nine times ionized
xenon, Xe X, was published by Churilov and Joshi 关02CHU兴
based on experimental work of Kaufman et al. 关83KAU兴.
They considered the transitions between the 4d 9 ground configuration and the 4d 8 5p, 4d 8 4 f , and 4 p 5 4d 10 levels. We
tabulate the 62 levels they determined in the Xe X level table.
The levels have an uncertainty of 10 cm⫺1. The levels of the
excited configurations are very mixed in LS notation and we
follow Churilov and Joshi 关02CHU兴 in not specifying a LS
designation but assigning them by specifying only the configuration, the integer value of the energy level, the J value,
and the odd parity. See 关02CHU兴 for the leading LS terms of
each level. The ‘‘?’’ after the 672 762 cm⫺1 J⫽7/2 level
indicates that this level is tentative.
Churilov and Joshi 关02CHU兴 classified 83 Xe X lines.
They remeasured the spectrograms of 关83KAU兴 using improved measurement techniques. The uncertainty of their
wavelength measurements is 0.003 Å. These lines are listed
in the Xe X line table.
Kaufman et al. 关83KAU兴 classified 47 lines. They used a
modified triggered spark initiated by a puff of xenon gas as
their source. The quoted uncertainty of their wavelength
measurements is 0.005 Å.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe X levels. Only classifiable lines are included in our compilation.
J
Configuration
2
2
2
3
2
1
2
2
1
1
2
2
2
3
1
2
3
2
2
2
9
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Term
3
4d 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
4d 9 5p
ⴰ
D
Dⴰ
3 ⴰ
D
3 ⴰ
F
1 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
1 ⴰ
P
1 ⴰ
D
3 ⴰ
D
1 ⴰ
P
1 ⴰ
D
3 ⴰ
F
3 ⴰ
F
3 ⴰ
F
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
1
Transition probability calculations utilizing the Cowan
codes 关81COW兴 are used by Churilov and Joshi 关02CHU兴 to
help resolve choices between multiple possible classifications of lines. Intensities reported are those given in Churilov
and Joshi 关02CHU兴.
The intensity codes given in the Xe X line table are taken
from the specified source. Their meaning is stated below:
Symbol
Definition
b
blended line
m
masked line
?
listed as a tentative classification in reference
*
Two or more classifications of this line share
the same intensity
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra, 共University of California Press,
Berkeley, 1981兲.
83KAU
V. Kaufman, J. Sugar, and J. L. Tech, J. Opt.
Soc. Am. 73, 691 共1983兲.
02CHU
S. S. Churilov and Y. N. Yoshi, Phys. Scr. 65, 40
共2002兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
890
E. B. SALOMAN
Energy levels of Xe X
Energy level
共cm⫺1兲
Parity
Configuration
0.
16 725.
0
0
4d 9
4d 9
629 040.
644 130.
646 494.
646 880.
654 245.
656 520.
657 645.
658 993.
662 160.
664 256.
668 525.
669 531.
671 045.
672 762.?
674 159.
675 652.
675 878.
677 421.
677 704.
681 425.
682 838.
682 998.
684 240.
688 121.
690 757.
691 306.
694 056.
695 239.
696 975.
701 735.
703 997.
705 669.
723 216.
745 212.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
629 234.
924 721.
676 893.
678 351.
682 437.
684 807.
686 273.
687 770.
689 190.
697 440.
698 751.
701 155.
702 652.
708 748.
711 392.
713 643.
721 870.
725 785.
737 104.
749 681.
753 489.
864 592.
870 470.
874 794.
881 539.
887 203.
J
Source
of level
D
D
5/2
3/2
02CHU
02CHU
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
629 040ⴰ
644 130ⴰ
646 494ⴰ
646 880ⴰ
654 245ⴰ
656 520ⴰ
657 645ⴰ
658 993ⴰ
662 160ⴰ
664 256ⴰ
668 525ⴰ
669 531ⴰ
671 045ⴰ
672 762ⴰ
674 159ⴰ
675 652ⴰ
675 878ⴰ
677 421ⴰ
677 704ⴰ
681 425ⴰ
682 838ⴰ
682 998ⴰ
684 240ⴰ
688 121ⴰ
690 757ⴰ
691 306ⴰ
694 056ⴰ
695 239ⴰ
696 975ⴰ
701 735ⴰ
703 997ⴰ
705 669ⴰ
723 216ⴰ
745 212ⴰ
7/2
3/2
5/2
7/2
3/2
1/2
5/2
7/2
3/2
5/2
5/2
7/2
5/2
7/2
3/2
5/2
7/2
3/2
1/2
1/2
5/2
3/2
7/2
3/2
5/2
3/2
5/2
1/2
3/2
5/2
7/2
1/2
1/2
3/2
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
1
1
4 p 5 4d 10
4 p 5 4d 10
629 234ⴰ
924 721ⴰ
3/2
1/2
02CHU
02CHU
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
676 893ⴰ
678 351ⴰ
682 437ⴰ
684 807ⴰ
686 273ⴰ
687 770ⴰ
689 190ⴰ
697 440ⴰ
698 751ⴰ
701 155ⴰ
702 652ⴰ
708 748ⴰ
711 392ⴰ
713 643ⴰ
721 870ⴰ
725 785ⴰ
737 104ⴰ
749 681ⴰ
753 489ⴰ
864 592ⴰ
870 470ⴰ
874 794ⴰ
881 539ⴰ
887 203ⴰ
7/2
5/2
3/2
1/2
5/2
7/2
3/2
3/2
5/2
5/2
1/2
7/2
5/2
5/2
5/2
1/2
1/2
3/2
1/2
5/2
7/2
3/2
3/2
5/2
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
2
SPECTRAL LINES OF XENON
891
Spectral lines of Xe X
Observed
vacuum
wavelength
共Å兲
110.133
112.714
113.438
114.312
114.880
114.880
115.632
115.661
116.541
133.390
134.189
135.729
137.272
138.529
138.816
140.126
141.032
141.094
141.545
142.046
142.502
143.381
143.478
143.488
143.954
144.079
144.655
144.771
145.096
145.150
145.325
145.397
145.715
145.788
145.983
146.107
146.148
146.413
146.448
146.532
146.622
147.005
147.381
147.418
147.618
147.640
147.734
147.956
148.238
148.333
148.359
148.641
148.709
148.942
149.020
149.358
149.583
149.682
150.089
150.124
150.216
150.444
Observed
wave
number
(103 cm⫺1 )
907.99
887.20
881.54
874.80
870.47
870.47
864.81
864.60
858.07
749.681
745.218
736.762
728.481
721.871
720.378
713.643
709.059
708.747
706.489
703.997
701.745
697.442
696.971
696.922
694.666
694.064
691.300
690.746
689.199
688.942
688.113
687.772
686.271
685.928
685.011
684.430
684.238
682.999
682.836
682.445
682.026
680.249
678.514
678.343
677.424
677.323
676.892
675.877
674.591
674.159
674.041
672.762
672.454
671.402
671.051
669.532
668.525
668.083
666.271
666.116
665.708
664.699
Intensity
and
comment
15
3
15
30
80*
80*
30
60
12
7
6
10
10
3
7
4
5
9
6
25
3
8
10m
7m
2
2
20
7
5
35
25
4
4
3
55
17
8
15
5
4
5
2
8
6
72
34
6
100
10
30
52
6?
23
44
75
80
42
4
150b
95b
5
9
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1/2
5/2
3/2
3/2
5/2
7/2
3/2
5/2
3/2
3/2
3/2
1/2
3/2
5/2
1/2
5/2
1/2
7/2
1/2
7/2
5/2
3/2
3/2
5/2
5/2
5/2
3/2
5/2
3/2
1/2
3/2
7/2
5/2
1/2
5/2
5/2
7/2
3/2
5/2
3/2
5/2
3/2
1/2
5/2
3/2
5/2
7/2
7/2
3/2
3/2
5/2
7/2
3/2
3/2
5/2
7/2
5/2
1/2
3/2
5/2
3/2
1/2
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
Classification
Configuration
9
4d
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
Term
2
D
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
J
3/2
5/2
5/2
5/2
3/2
5/2
3/2
5/2
3/2
5/2
5/2
3/2
3/2
5/2
3/2
5/2
3/2
5/2
3/2
5/2
5/2
5/2
5/2
3/2
3/2
5/2
5/2
5/2
5/2
3/2
5/2
5/2
5/2
3/2
3/2
3/2
5/2
5/2
5/2
5/2
3/2
3/2
3/2
5/2
5/2
3/2
5/2
5/2
3/2
5/2
3/2
5/2
3/2
3/2
5/2
5/2
5/2
3/2
3/2
3/2
3/2
3/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5
10
4p 4d
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 4 f
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 4 f
4d 8 4 f
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 4 f
4d 8 5p
Term
ⴰ
924 721
887 203ⴰ
881 539ⴰ
874 794ⴰ
887 203ⴰ
870 470ⴰ
881 539ⴰ
864 592ⴰ
874 794ⴰ
749 681ⴰ
745 212ⴰ
753 489ⴰ
745 212ⴰ
721 870ⴰ
737 104ⴰ
713 643ⴰ
725 785ⴰ
708 748ⴰ
723 216ⴰ
703 997ⴰ
701 735ⴰ
697 440ⴰ
696 975ⴰ
713 643ⴰ
711 392ⴰ
694 056ⴰ
691 306ⴰ
690 757ⴰ
689 190ⴰ
705 669ⴰ
688 121ⴰ
687 770ⴰ
686 273ⴰ
702 652ⴰ
701 735ⴰ
701 155ⴰ
684 240ⴰ
682 998ⴰ
682 838ⴰ
682 437ⴰ
698 751ⴰ
696 975ⴰ
695 239ⴰ
678 351ⴰ
677 421ⴰ
694 056ⴰ
676 893ⴰ
675 878ⴰ
691 306ⴰ
674 159ⴰ
690 757ⴰ
672 762ⴰ
689 190ⴰ
688 121ⴰ
671 045ⴰ
669 531ⴰ
668 525ⴰ
684 807ⴰ
682 998ⴰ
682 838ⴰ
682 437ⴰ
681 425ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
892
E. B. SALOMAN
Spectral lines of Xe X—Continued
Observed
vacuum
wavelength
共Å兲
150.544
151.020
151.141
151.291
151.356
151.747
151.762
152.058
152.832
152.849
154.433
154.588
154.680
154.935
155.248
156.300
156.857
158.924
158.972
159.388
163.262
Observed
wave
number
(103 cm⫺1 )
664.258
662.164
661.634
660.978
660.694
658.992
658.926
657.644
654.313
654.240
647.530
646.881
646.496
645.432
644.131
639.795
637.523
629.232
629.042
627.400
612.512
Intensity
and
comment
90
10
9
6
4
80
27
78
6
5
6
8
24
15
4
3
5
7
3
10 m
3
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
5/2
3/2
5/2
1/2
3/2
7/2
5/2
5/2
5/2
3/2
5/2
7/2
5/2
3/2
3/2
1/2
3/2
3/2
7/2
3/2
3/2
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
02CHU
Classification
Configuration
9
4d
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
4d 9
Term
2
D
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
D
2
J
Configuration
5/2
5/2
3/2
3/2
3/2
5/2
3/2
5/2
3/2
5/2
3/2
5/2
5/2
3/2
5/2
3/2
3/2
5/2
5/2
3/2
3/2
8
4.11. Xe XI
Ru isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 8 3 F4
Ionization energy 1 847 200⫾1600 cm⫺1 共229.02⫾0.20
eV兲 关 03CHUb兴
A partial analysis of the spectrum of ten times ionized
xenon, Xe XI was carried out by Churilov et al. 关 03CHUa兴,
关 03CHUb兴. They studied the transitions between the 4p 6 4d 8
ground configuration and the 4p 6 4d 7 5p, 4p 6 4d 7 4 f , and
4 p 5 4d 9 excited levels. We tabulate the 132 levels they determined in the Xe XI level table. The levels of the ground
configuration have an estimated uncertainty of 10 cm⫺1. The
excited configuration levels have estimated uncertainties of
20–30 cm⫺1. The levels of the excited configurations are
very mixed in their term designations 共and for several levels
also in their configurations兲 so we do not specify a LS designation but assign them by specifying only the configuration, the integer value of the energy level, the J value, and
their odd parity. See Churilov et al. 关 03CHUb兴 for the leading LS terms of each level. A ‘‘?’’ after a level indicates that
the level is tentative.
Churilov et al. 关 03CHUa兴 classified 16 prominent Xe XI
lines and Churilov et al. 关 03CHUb兴 classified 201 Xe XI
lines. They used a low inductance triggered spark initiated by
a puff of xenon gas as their source. The uncertainty of their
wavelength measurements is 0.003 Å. The lines listed in the
Xe XI line table are taken from 关 03CHUb兴.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XI levels. Only classifiable lines are included in our compilation.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4d 5p
4d 8 5p
4d 8 4 f
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4d 8 5p
4p 5 4d 10
4d 8 5p
4d 8 5p
4p 5 4d 10
Term
ⴰ
664 256
662 160ⴰ
678 351ⴰ
677 704ⴰ
677 421ⴰ
658 993ⴰ
675 652ⴰ
657 645ⴰ
671 045ⴰ
654 245ⴰ
664 256ⴰ
646 880ⴰ
646 494ⴰ
662 160ⴰ
644 130ⴰ
656 520ⴰ
654 245ⴰ
629 234ⴰ
629 040ⴰ
644 130ⴰ
629 234ⴰ
Transition probability calculations utilizing the Cowan
codes 关81COW兴 are used by Churilov et al. 关 03CHUb兴 to
help resolve choices between multiple possible classifications of lines. Intensities reported are those given in Churilov
et al. 关 03CHUb兴.
The intensity codes given in the Xe XI line table are taken
from the specified source. Their meaning is stated below:
Symbol
Definition
bl
blended line
m
masked line
?
listed as a tentative classification in reference
*
two or more classifications of this line share the
same intensity
The ionization energy was determined by Churilov et al.
关 03CHUb兴 by means of semiempirical calculations.
References
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
03CHUa
S. S. Churilov, Y. N. Yoshi, and J. Reader, Opt.
Lett. 28, 1478 共2003兲.
03CHUb
S. S. Churilov, Y. N. Yoshi, J. Reader, and R. R.
Kildiyarova, ‘‘Analysis of the 4p6 4d8 ⫺(4d7 5p
⫹4d7 4f⫹4p5 4d9 ) Transitions in Xe XI Ion.’’
Phys. Scr. 共to be published兲.
SPECTRAL LINES OF XENON
893
Energy levels of Xe XI
Energy level
共cm⫺1兲
Parity
Configuration
0.
13 140.
15 205.
26 670.
32 210.
34 610.
40 835.
42 900.
88 130.
0
0
0
0
0
0
0
0
0
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
679 572?
681 023?
687 020?
717 330?
944 705
951 795
957 488
1
1
1
1
1
1
1
695 376?
709 285?
712 223
714 855
715 730
721 001?
722 439
725 053
725 825
730 345
731 458
733 755
737 388
738 248
739 322
739 542
740 348
740 757
741 800
742 594
744 537
744 955
745 470
746 445
746 552
749 351
750 512
752 054
752 155
752 285
753 352
753 795
754 745
754 860
755 831
756 016
756 170
758 337
759 110
759 260
760 950
761 266
762 105
763 070
765 052
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
J
Source
of level
F
F
3
F
3
P
3
P
3
P
1
G
1
D
1
S
4
2
3
2
0
1
4
2
0
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
679 572ⴰ
681 023ⴰ
687 020ⴰ
717 330ⴰ
944 705ⴰ
951 795ⴰ
957 488ⴰ
3
2
4
3
2
2
3
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
4 p 6 4d 7 5p
4 p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4 p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
695 376ⴰ
709 285ⴰ
712 223ⴰ
714 855ⴰ
715 730ⴰ
721 001ⴰ
722 439ⴰ
725 053ⴰ
725 825ⴰ
730 345ⴰ
731 458ⴰ
733 755ⴰ
737 388ⴰ
738 248ⴰ
739 322ⴰ
739 542ⴰ
740 348ⴰ
740 757ⴰ
741 800ⴰ
742 594ⴰ
744 537ⴰ
744 955ⴰ
745 470ⴰ
746 445ⴰ
746 552ⴰ
749 351ⴰ
750 512ⴰ
752 054ⴰ
752 155ⴰ
752 285ⴰ
753 352ⴰ
753 795ⴰ
754 745ⴰ
754 860ⴰ
755 831ⴰ
756 016ⴰ
756 170ⴰ
758 337ⴰ
759 110ⴰ
759 260ⴰ
760 950ⴰ
761 266ⴰ
762 105ⴰ
763 070ⴰ
765 052ⴰ
4
3
4
3
2
2
5
4
3
5
4
3
4
5
3
4
5
2
3
1
4
3
1
3
2
3
2
3
1
4
5
2
1
3
4
4
2
1
3
5
1
3
2
4
2
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
Term
3
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
894
E. B. SALOMAN
Energy levels of Xe XI—Continued
Energy level
共cm⫺1兲
Parity
Configuration
Term
J
Source
of level
765 770
766 625
766 860
766 947
767 369
767 700
768 773
773 315
773 715
773 968
773 968
775 030
775 570
775 775
778 350
780 503
781 822
784 035
786 580
788 145
788 396
788 465
789 029
791 805
792 311
795 135
795 995
801 225
802 905
808 130
824 474
828 875
830 260
838 289
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
765 770ⴰ
766 625ⴰ
766 860ⴰ
766 947ⴰ
767 369ⴰ
767 700ⴰ
768 773ⴰ
773 315ⴰ
773 715ⴰ
773 968ⴰ
773 968ⴰ
775 030ⴰ
775 570ⴰ
775 775ⴰ
778 350ⴰ
780 503ⴰ
781 822ⴰ
784 035ⴰ
786 580ⴰ
788 145ⴰ
788 396ⴰ
788 465ⴰ
789 029ⴰ
791 805ⴰ
792 311ⴰ
795 135ⴰ
795 995ⴰ
801 225ⴰ
802 905ⴰ
808 130ⴰ
824 474ⴰ
828 875ⴰ
830 260ⴰ
838 289ⴰ
1
2
3
5
1
5
3
2
3
4
5
1
3
4
1
3
2
1
2
2
1
3
5
1
0
3
2
3
2
1
3
2
1
3
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
730 235?
735 246
736 077?
742 430
745 762
748 644?
769 217
772 875
773 363
773 519
776 253
776 787
780 805
784 826
787 403
791 395
794 365
892 420
894 941
897 383
902 577
907 711
908 390
911 082
911 665
912 600
913 877
922 295
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
730 235ⴰ
735 246ⴰ
736 077ⴰ
742 430ⴰ
745 762ⴰ
748 644ⴰ
769 217ⴰ
772 875ⴰ
773 363ⴰ
773 519ⴰ
776 253ⴰ
776 787ⴰ
780 805ⴰ
784 826ⴰ
787 403ⴰ
791 395ⴰ
794 365ⴰ
892 420ⴰ
894 941ⴰ
897 383ⴰ
902 577ⴰ
907 711ⴰ
908 390ⴰ
911 082ⴰ
911 665ⴰ
912 600ⴰ
913 877ⴰ
922 295ⴰ
4
4
5
5
3
1
2
4
4
5
3
4
2
3
1
3
2
4
3
5
1
2
3
4
2
3
1
3
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
SPECTRAL LINES OF XENON
895
Energy levels of Xe XI—Continued
Energy level
共cm⫺1兲
Parity
Configuration
Term
J
Source
of level
924 500
925 010
925 626
931 420
933 343
935 035
938 628
947 660
989 020
1
1
1
1
1
1
1
1
1
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
924 500ⴰ
925 010ⴰ
925 626ⴰ
931 420ⴰ
933 343ⴰ
935 035ⴰ
938 628ⴰ
947 660ⴰ
989 020ⴰ
2
1
4
1
0
3
5
1
1
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
Spectral lines of Xe XI
Observed
vacuum
wavelength
共Å兲
105.699
106.125
109.027
109.093
109.339
109.878
110.026
110.531
110.531
110.889
110.998
111.174
111.268
111.290
111.384
111.384
111.435
111.435
111.504
111.552
111.622
111.654
111.706
111.739
111.785
111.834
111.954
112.006
112.045
112.055
112.089
112.373
112.431
112.713
112.877
113.021
113.366
113.731
114.020
114.713
116.342
119.291
122.902
126.360
127.006
127.227
Observed
wave
number
(103 cm⫺1 )
Intensity
and
comment
Configuration
946.08
942.29
917.20
916.65
914.59
910.10
908.88
904.72
904.72
901.80
900.92
899.49
898.73
898.55
897.80
897.80
897.38
897.38
896.83
896.44
895.88
895.62
895.21
894.94
894.57
894.18
893.22
892.81
892.50
892.42
892.15
889.89
889.43
887.21
885.92
884.79
882.10
879.27
877.04
871.74
859.53
838.29
813.656
791.390
787.364
785.997
14
52
276
314
217
286
121
263*
263*
107
140
176
148
164
635*
635*
559*
559*
148
169
577
447
534
467
387
85
161
192
200m
626
388
56
139
143bl
52
420
35
74
131
37
60
20
41
11
6
12
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
4p 6 4d 7 4 f
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 5 4d 9
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
989 020ⴰ
957 488ⴰ
951 795ⴰ
957 488ⴰ
957 488ⴰ
944 705ⴰ
951 795ⴰ
947 660ⴰ
931 420ⴰ
944 705ⴰ
989 020ⴰ
912 600ⴰ
933 343ⴰ
911 665ⴰ
924 500ⴰ
938 628ⴰ
912 600ⴰ
897 383ⴰ
931 420ⴰ
911 665ⴰ
911 082ⴰ
922 295ⴰ
908 390ⴰ
894 941ⴰ
907 711ⴰ
935 035ⴰ
908 390ⴰ
925 010ⴰ
907 711ⴰ
892 420ⴰ
935 035ⴰ
924 500ⴰ
902 577ⴰ
913 877ⴰ
912 600ⴰ
925 626ⴰ
925 010ⴰ
913 877ⴰ
911 665ⴰ
912 600ⴰ
947 660ⴰ
838 289ⴰ
828 875ⴰ
791 395ⴰ
830 260ⴰ
828 875ⴰ
1
3
2
3
3
2
2
1
1
2
1
3
0
2
2
5
3
5
1
2
4
3
3
3
2
3
3
1
2
4
3
2
1
1
3
4
1
1
2
3
1
3
2
3
1
2
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
Classification
Term
1
D
F
3
P
1
G
1
D
3
P
1
D
1
D
3
P
1
D
1
S
3
F
3
P
3
F
3
P
1
G
3
F
3
F
3
P
3
F
3
F
3
P
3
F
3
F
3
F
1
G
3
F
3
P
3
F
3
F
1
D
3
P
3
F
3
P
3
P
1
G
1
D
3
P
3
P
1
G
1
S
3
F
3
F
3
F
1
D
1
D
3
J
2
3
1
4
2
1
2
2
2
2
0
2
1
2
2
4
3
4
1
3
3
2
2
4
2
4
3
0
3
4
2
1
2
2
2
4
2
1
1
4
0
4
3
4
2
2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Source
of
line
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
896
E. B. SALOMAN
Spectral lines of Xe XI—Continued
Observed
vacuum
wavelength
共Å兲
127.610
127.967
128.080
128.219
128.344
128.834
129.640
129.934
129.987
130.079
130.163
130.262
130.442
130.679
131.055
131.160
131.281
131.321
131.398
131.481
131.515
131.573
131.620
131.648
131.711
131.733
131.865
131.905
131.978
132.067
132.305
132.471
132.573
132.623
132.658
132.701
132.740
132.783
132.839
132.928
132.983
133.042
133.042
133.072
133.082
133.361
133.437
133.513
133.529
133.655
133.710
133.760
133.861
133.891
133.934
133.968
134.037
134.091
134.124
134.187
134.238
134.312
Observed
wave
number
(103 cm⫺1 )
783.638
781.451
780.762
779.916
779.156
776.193
771.367
769.622
769.308
768.764
768.267
767.684
766.624
765.234
763.038
762.428
761.725
761.493
761.047
760.566
760.370
760.034
759.763
759.601
759.238
759.111
758.351
758.121
757.702
757.191
755.829
754.882
754.301
754.017
753.818
753.574
753.352
753.108
752.791
752.287
751.976
751.642
751.642
751.473
751.416
749.844
749.417
748.991
748.901
748.195
747.887
747.608
747.044
746.876
746.636
746.447
746.063
745.762
745.579
745.229
744.946
744.535
Intensity
and
comment
26
9
5
17
9
17
8
18
30
27
27
15
15
23
27
12
12
11
14
8
156
14
17
12
57
102
27
12
20
5
84m
32
170
11
55
53
24
18
14
47
114
8*
8*
15
16m
63
23
23
52
323
15
8
9
14
50
29
309
156
84
24bl
138
89
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
1
2
3
2
3
2
3
2
3
2
5
2
1
4
3
1
2
3
4
3
2
2
1
5
3
3
2
0
1
4
3
3
2
3
3
5
2
1
4
2
1
3
2
2
2
1
2
1
5
4
3
3
2
2
3
3
3
3
2
3
4
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
Classification
Configuration
6
8
4p 4d
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
G
P
3
F
3
F
3
F
3
F
3
F
3
F
3
P
3
F
3
P
3
F
3
F
3
F
3
F
3
F
3
P
3
P
3
F
3
F
1
G
1
D
3
P
3
P
3
F
3
F
1
D
3
F
3
P
3
P
3
F
3
F
1
G
3
F
3
P
3
F
3
F
1
D
3
P
3
F
3
P
3
P
3
F
1
D
3
F
3
F
3
P
3
F
1
D
1
G
3
F
1
G
3
P
3
F
3
P
3
F
3
F
3
F
1
D
1
D
3
F
3
F
3
J
4
2
3
3
3
3
3
3
2
4
1
4
3
2
4
2
2
2
3
3
4
2
1
0
4
4
2
3
1
1
4
4
4
3
2
3
4
2
1
4
1
2
3
2
3
3
1
2
2
4
3
4
2
3
2
4
3
4
2
2
4
4
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
6
7
4p 4d 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
Term
ⴰ
824 474
808 130ⴰ
795 995ⴰ
795 135ⴰ
794 365ⴰ
791 395ⴰ
786 580ⴰ
784 826ⴰ
795 995ⴰ
768 773ⴰ
802 905ⴰ
767 700ⴰ
781 822ⴰ
778 350ⴰ
763 070ⴰ
775 570ⴰ
788 396ⴰ
788 145ⴰ
776 253ⴰ
775 775ⴰ
801 225ⴰ
802 905ⴰ
794 365ⴰ
791 805ⴰ
759 260ⴰ
759 110ⴰ
801 225ⴰ
773 315ⴰ
792 311ⴰ
791 805ⴰ
755 831ⴰ
754 860ⴰ
795 135ⴰ
769 217ⴰ
780 503ⴰ
768 773ⴰ
753 352ⴰ
795 995ⴰ
787 403ⴰ
752 285ⴰ
786 580ⴰ
778 350ⴰ
766 860ⴰ
794 365ⴰ
766 625ⴰ
765 052ⴰ
784 035ⴰ
762 105ⴰ
791 805ⴰ
789 029ⴰ
763 070ⴰ
788 465ⴰ
773 715ⴰ
762 105ⴰ
773 315ⴰ
746 445ⴰ
761 266ⴰ
745 762ⴰ
788 465ⴰ
788 145ⴰ
744 955ⴰ
744 537ⴰ
SPECTRAL LINES OF XENON
897
Spectral lines of Xe XI—Continued
Observed
vacuum
wavelength
共Å兲
134.426
134.581
134.626
134.673
134.689
134.750
134.844
134.927
134.962
134.987
135.072
135.100
135.145
135.202
135.219
135.259
135.298
135.317
135.334
135.334
135.393
135.431
135.456
135.519
135.571
135.614
135.855
135.878
135.961
135.997
136.009
136.025
136.065
136.188
136.213
136.290
136.324
136.348
136.401
136.401
136.451
136.484
136.514
136.547
136.584
136.605
136.605
136.670
136.713
136.735
136.829
136.908
136.922
136.942
137.031
137.238
137.438
137.524
137.574
137.677
137.720
137.778
Observed
wave
number
(103 cm⫺1 )
743.904
743.047
742.799
742.539
742.451
742.115
741.598
741.142
740.949
740.812
740.346
740.192
739.946
739.634
739.541
739.322
739.109
739.005
738.913
738.913
738.591
738.383
738.247
737.904
737.621
737.387
736.079
735.954
735.505
735.310
735.245
735.159
734.943
734.279
734.144
733.730
733.547
733.417
733.132
733.132
732.864
732.687
732.526
732.349
732.150
732.038
732.038
731.689
731.459
731.342
730.839
730.418
730.343
730.236
729.762
728.661
727.601
727.146
726.882
726.338
726.111
725.805
Intensity
and
comment
29
59
8
48
20
99
89
218
222
392
518
179
63
53
135
60
123
95
165*
165*
66
14
11
60 m
80
339
18?
71
48?
38
50
33
50
54
336
63
35
122
236*
236*
75
23
143
65
48
315*
315*
18
127
21
21
11
29
15?
21
98
15
8
12
65
35
60
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
2
1
2
5
1
1
1
2
4
5
3
2
3
4
3
1
1
2
3
2
2
5
2
3
4
5
4
1
2
4
1
4
1
3
3
1
2
4
5
3
5
4
1
1
4
2
1
4
2
3
2
5
4
3
3
2
2
5
1
5
3
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
Classification
Configuration
6
8
4p 4d
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
Term
3
F
F
3
P
3
P
3
F
1
S
3
F
1
D
3
F
3
F
3
F
3
P
3
P
3
F
3
F
3
F
3
P
3
F
1
D
3
F
3
F
3
P
3
F
1
D
1
D
3
F
3
F
1
G
3
F
3
F
3
F
3
P
1
G
3
P
3
F
3
F
3
P
3
F
1
G
1
G
1
G
1
G
1
G
3
F
1
D
1
G
3
P
3
P
3
F
3
F
1
D
1
D
3
F
3
F
3
F
3
F
3
F
3
P
1
G
3
P
1
G
3
F
3
J
3
2
0
2
4
0
2
2
3
3
4
2
2
3
4
4
2
2
2
2
3
2
4
2
2
4
4
4
2
3
4
0
4
2
3
4
0
2
4
4
4
4
4
2
2
4
1
2
4
3
2
2
4
4
3
2
2
2
4
1
4
4
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
6
7
4p 4d 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
Term
ⴰ
759 110
756 170ⴰ
775 030ⴰ
769 217ⴰ
742 430ⴰ
830 260ⴰ
754 745ⴰ
784 035ⴰ
756 170ⴰ
756 016ⴰ
740 348ⴰ
766 860ⴰ
766 625ⴰ
754 860ⴰ
739 542ⴰ
739 322ⴰ
765 770ⴰ
752 155ⴰ
781 822ⴰ
752 054ⴰ
753 795ⴰ
765 052ⴰ
738 248ⴰ
780 805ⴰ
780 503ⴰ
737 388ⴰ
736 077ⴰ
776 787ⴰ
748 644ⴰ
750 512ⴰ
735 246ⴰ
767 369ⴰ
775 775ⴰ
760 950ⴰ
749 351ⴰ
733 755ⴰ
765 770ⴰ
746 552ⴰ
773 968ⴰ
773 968ⴰ
773 715ⴰ
773 519ⴰ
773 363ⴰ
745 470ⴰ
775 030ⴰ
772 875ⴰ
766 625ⴰ
758 337ⴰ
731 458ⴰ
746 552ⴰ
773 715ⴰ
773 315ⴰ
730 345ⴰ
730 235ⴰ
744 955ⴰ
741 800ⴰ
740 757ⴰ
753 795ⴰ
767 700ⴰ
760 950ⴰ
766 947ⴰ
725 825ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
898
E. B. SALOMAN
Spectral lines of Xe XI—Continued
Observed
vacuum
wavelength
共Å兲
137.921
138.152
138.178
138.420
138.459
138.765
138.889
138.896
139.050
139.166
139.190
139.689
139.825
139.836
139.893
140.036
140.207
140.314
140.347
140.405
140.478
140.723
140.987
141.246
141.271
141.428
142.112
142.328
142.539
142.753
142.925
143.026
143.807
145.556
147.149
147.821
149.727
156.562
Observed
wave
number
(103 cm⫺1 )
725.053
723.840
723.704
722.439
722.235
720.643
719.999
719.963
719.166
718.566
718.442
715.876
715.180
715.123
714.832
714.102
713.231
712.687
712.520
712.225
711.855
710.616
709.285
707.985
707.859
707.074
703.670
702.602
701.562
700.511
699.668
699.174
695.376
687.021
679.583
676.494
667.882
638.725
Intensity
and
comment
27
30
16
20
159
29
21
23
59
33
102
21
39
30
15
21
16
10
16
29
5
9
6?
16
11?
15
6
5
6
8
14
15
21?
8?
11?
8?
18?
8?
Configuration
6
8
4p 4d
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
4p 6 4d 8
Term
3
F
P
3
P
3
F
1
G
3
F
1
S
3
P
3
P
3
F
1
G
3
P
1
G
3
P
3
F
3
P
3
P
3
F
1
G
3
F
1
D
3
F
3
F
3
P
3
F
3
P
1
S
3
F
1
G
3
F
3
F
3
P
3
F
3
F
3
F
1
G
3
F
1
G
3
J
4
2
1
4
4
2
0
0
1
3
4
1
4
2
4
2
0
2
4
4
2
3
4
1
2
2
0
2
4
3
3
2
4
4
4
4
2
4
4.12. Xe XII
Tc isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 7 4 F9/2
Ionization energy 2 125 000 cm⫺1 共263.5 eV兲 关70CAR兴
The ground state of Xe XII was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion.
Klosner and Silfvast 关00KLO兴 have identified emission
around 110 Å from a capillary-discharge plasma as being
from Xe XII. The ionization energy was determined by Carlson et al. 关70CAR兴 by means of a calculation based on a
simple spherical shell solution for neutral atoms.
References
70CAR
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
4
2
1
5
4
3
1
1
2
3
5
2
4
3
3
2
1
3
5
4
1
3
3
1
2
3
1
2
5
2
3
3
4
4
3
3
2
3
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
0.003
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
03CHUb
Classification
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
6
7
4p 4d 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 4 f
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 6 4d 7 5p
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
4p 5 4d 9
Term
ⴰ
725 053
750 512ⴰ
758 337ⴰ
722 439ⴰ
763 070ⴰ
733 755ⴰ
808 130ⴰ
752 155ⴰ
753 795ⴰ
733 755ⴰ
759 260ⴰ
750 512ⴰ
756 016ⴰ
741 800ⴰ
714 855ⴰ
740 757ⴰ
745 470ⴰ
725 825ⴰ
753 352ⴰ
712 223ⴰ
754 745ⴰ
725 825ⴰ
709 285ⴰ
742 594ⴰ
721 001ⴰ
733 755ⴰ
791 805ⴰ
715 730ⴰ
742 430ⴰ
715 730ⴰ
714 855ⴰ
725 825ⴰ
695 376ⴰ
687 020ⴰ
679 572ⴰ
717 330ⴰ
681 023ⴰ
679 572ⴰ
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
00KLO
M. A. Klosner and W. T. Silfvast, J. Opt. Soc.
Am. B 17, 1279 共2000兲.
4.13. Xe XIII
Mo isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 104s 2 4 p 6 4d 6 5 D4
Ionization energy 2 374 000 cm⫺1 共294.4 eV兲 关70CAR兴
The ground state of Xe XIII was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion. The
ionization energy was determined by Carlson et al. 关70CAR兴
by means of a calculation based on a simple spherical shell
solution for neutral atoms.
SPECTRAL LINES OF XENON
‘References
899
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
4.17. Xe XVII
4.14. Xe XIV
Nb isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 5 6 S5/2
Ionization energy 2 624 000 cm⫺1 共325.3 eV兲 关70CAR兴
The ground state of Xe XIV was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion. The
ionization energy was determined by Carlson et al. 关70CAR兴
by means of a calculation based on a simple spherical shell
solution for neutral atoms.
Sr isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 104s 2 4 p 6 4d 2 3 F2
Ionization energy 3 395 000 cm⫺1 共420.9 eV兲 关70CAR兴
The ground state of Xe XVII was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion. The
ionization energy was determined by Carlson et al. 关70CAR兴
by means of a calculation based on a simple spherical shell
solution for neutral atoms.
References
References
70CAR
81COW
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
4.15. Xe XV
Zr isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 4 5 D0
Ionization energy 2 890 000 cm⫺1 共358.3 eV兲 关70CAR兴
The ground state of Xe XV was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion. The
ionization energy was determined by Carlson et al. 关70CAR兴
by means of a calculation based on a simple spherical shell
solution for neutral atoms.
4.18. Xe XVIII
Rb isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 104s 2 4 p 6 4d 2 D3/2
Ionization energy 3 647 000 cm⫺1 共452.2 eV兲 关70CAR兴
The ground state of Xe XVIII was determined by means of
a calculation using the Cowan codes 关81COW兴. Three classified lines have been reported by Sugar et al. 关92SUG兴 from
work using a tokamak source:
␭共Å兲
I
Classification
109.521
107.224
108.005
30
40
60
4p 6 4d 2 D3/2 – 4p 5 4d 2 ( 1 Gⴰ ) 2 Fⴰ5/2
4p 6 4d 2 D5/2 – 4p 5 4d 2 ( 1 Gⴰ ) 2 Fⴰ7/2
4p 6 4d 2 D5/2 – 4p 5 4d 2 ( 3 Fⴰ ) 2 Dⴰ5/2
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
4.16. Xe XVI
Y isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 4d 3 4 F3/2
Ionization energy 3 142 000 cm⫺1 共389.6 eV兲 关70CAR兴
The ground state of Xe XVI was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion. The
ionization energy was determined by Carlson et al. 关70CAR兴
by means of a calculation based on a simple spherical shell
solution for neutral atoms.
They quote an uncertainty of 0.005 Å for their wavelengths. The semiempirically corrected value 共obtained by
smoothing along the isoelectronic sequence兲 of the first of
these lines gives a value of 913 000⫾42 cm⫺1 for the energy
ⴰ
level with respect to the ground
of the 4p 5 4d 2 ( 1 Gⴰ ) 2 F5/2
state. The value of the 4p 6 4d 2 D splitting was not determined.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
900
92SUG
E. B. SALOMAN
Symbol
J. Sugar, V. Kaufman, and W. L. Rowan, J. Opt.
Soc. Am. B 9, 1959 共1992兲.
Definition
p
perturbed by a close line
Crespo López-Urrutia et al. 关02CRE兴 tentatively classify a
line observed using an EBIT at 4363 ⫾4 Å as the forbidden
intra-configuration transition 4p 5 4d 3 P2 ⫺ 3 P1 .
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
4.19. Xe XIX
Kr isoelectronic sequence
Ground State 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 6 1 S0
Ionization energy 4 618 000 cm⫺1 共572.5 eV兲 关70CAR兴
A very partial analysis of the spectrum of 18 times ionized
xenon, Xe XIX, was published by Sugar et al. 关91SUG兴. We
use their energy levels which are based on semi-empirically
smoothed wavelengths. The absence of decimal points for
values in the energy level table indicates that the values
above zero, in order of increasing value, have uncertainties
of about 30 and 40 cm⫺1, respectively.
Sugar et al. 关91SUG兴 classified two Xe XIX resonance
lines. They used a tokamak as their light source. The estimated uncertainty of their wavelength measurements is
0.005 Å.
Breton et al. 关88BRE兴 classified one line at 106.37 Å
which was a small structure on a broad band. They also used
a tokamak as their light source. The quoted uncertainty of
their wavelength measurements is 0.05 Å. They tentatively
assigned the line to a transition between the ground state and
a 4p 5 4d level. We did not include this line in the Xe XIX line
table.
We use the two lines of Sugar et al. 关91SUG兴. Intensities
reported are those given in this reference.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XIX levels. Only classifiable lines are included in our
compilation.
The intensity code given in the Xe XIX line table is specified below:
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
88BRE
C. Breton, C. DeMichelis, W. Hecq, M.
Mattioli, J. Ramette, B. Saoutic, C.
Bauche-Arnoult, J. Bauche, and J. F. Wyart,
Phys. Scr. 37, 33 共1988兲.
91SUG
J. Sugar, V. Kaufman, D. H. Baik, Y.-K. Kim,
and W. L. Rowan, J. Opt. Soc. Am. B 8, 2026
共1991兲.
02CRE
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
Energy levels of Xe XIX
Energy level
共cm⫺1兲
Parity
Configuration
0.
0
4p 6
759 088
1
4p 5 4d
1
5
922 237
J
Source
of Level
S
0
91SUG
Dⴰ
1
91SUG
1
91SUG
Term
1
3
1 ⴰ
4p 4d
P
Spectral Lines of Xe XIX
Observed
vacuum
wavelength
共Å兲
108.409
131.740
Observed
wave
number
(103 cm⫺1 )
922.43
759.07
Intensity
and
comment
10p
1
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
0.005
0.005
91SUG
91SUG
Classification
Configuration
6
4p
4p 6
Term
1
1
S
S
4.20. Xe XX
Br isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 5 2 P3/2
⫺1
Ionization energy 4 901 000 cm 共607.7 eV兲 关70CAR兴
The ground state of Xe XX was determined by means of a
calculation using the Cowan codes 关81COW兴. Breton et al.
关88BRE兴 reported three lines at 107.24, 107.57, and 108.35
Å which were small structures on a broad band. They used a
tokamak as their light source. The quoted uncertainty of their
wavelength measurements is 0.05 Å. They tentatively assigned the lines to transitions between the ground configuration doublet 4s 2 4p 5 2 Pⴰ and an unspecified 4s 2 4p 4 4d level.
The ionization energy was determined by Carlson et al.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
J
Configuration
Term
0
0
5
1 ⴰ
–
–
4p 4d
4p 5 4d
3
P
Dⴰ
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
88BRE
C. Breton, C. DeMichelis, W. Hecq, M.
Mattioli, J. Ramette, B. Saoutic, C.
Bauche-Arnoult, J. Bauche, and J. F. Wyart,
Phys. Scr. 37, 33 共1988兲.
SPECTRAL LINES OF XENON
4.21. Xe XXI
Se isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 4 3 P2
Ionization energy 5 185 000 cm⫺1 共642.9 eV兲 关70CAR兴
The ground state of Xe XXI was determined by means of a
calculation using the Cowan codes 关81COW兴. Breton et al.
关88BRE兴 observed one line at 107.94 Å which was a small
structure on a broad band. They used a tokamak as their light
source. The quoted uncertainty of their wavelength measurements is 0.05 Å. They tentatively assigned the line to a transition between the ground state and an unspecified 4p 3 4d
level.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
ments is 0.05 Å. They tentatively assigned the line to a transition between the 4s 2 4 p 2 3 P2 state and an unspecified 4p4d
level.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
88BRE
C. Breton, C. DeMichelis, W. Hecq, M.
Mattioli, J. Ramette, B. Saoutic, C.
Bauche-Arnoult, J. Bauche, and J. F. Wyart,
Phys. Scr. 37, 33 共1988兲.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
88BRE
C. Breton, C. DeMichelis, W. Hecq, M.
Mattioli, J. Ramette, B. Saoutic, C.
Bauche-Arnoult, J. Bauche, and J. F. Wyart,
Phys. Scr. 37, 33 共1988兲.
4.22. Xe XXII
As isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 3 4 S3/2
⫺1
Ionization energy 5 469 000 cm 共678.1 eV兲 关70CAR兴
The ground state of Xe XXII was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion. The
ionization energy was determined by Carlson et al. 关70CAR兴
by means of a calculation based on a simple spherical shell
solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
4.23. Xe XXIII
Ge isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 4p 2 3 P0
Ionization energy 5 856 000 cm⫺1 共726.0 eV兲 关70CAR兴
The ground state of Xe XXIII was determined by means of
a calculation using the Cowan codes 关81COW兴. Breton et al.
关88BRE兴 observed one line at 114.84 Å which was a small
structure on a broadband. They used a tokamak as their light
source. The quoted uncertainty of their wavelength measure-
901
4.24. Xe XXIV
Ga isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 104s 2 4 p 2 P1/2
⫺1
Ionization energy 6 149 000 cm 共762.4 eV兲 关70CAR兴
The ground state of Xe XXIV was determined by means of
a calculation using the Cowan codes 关81COW兴. Hacker et al.
关01HAC兴 reported observing four Xe XXIV lines at 69.8,
80.70, 102.30 共a blend兲, and 143.60 Å with intensities 5, 15,
25, and 20, respectively. They used a stellarator as their light
source. The quoted uncertainty of their wavelength measurements is 0.05–0.10 Å.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
01HAC
H. H. Hacker et al., Appl. Phys. B 73, 59
共2001兲.
4.25. Xe XXV
Zn isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 104s 2 1 S0
Ionization energy 6 877 000 cm⫺1 共852.7 eV兲 关70CAR兴
Partial analyses of the spectrum of 24 times ionized xenon, Xe XXV, was published by Brown et al. 关94BRO兴 and
Seely et al. 关93SEE兴. We use the energy levels of Brown
et al. 关94BRO兴 which are based on semiempirically corrected wavelengths 共along the Zn isoelectronic sequence兲.
The absence of decimal points for values in the Xe XXV energy level table is used to indicate that the values above zero
have uncertainties of about 200 cm⫺1.
Hacker et al. 关01HAC兴 observed 24 lines which they identified as being from Xe XXV. Twelve of these were compatJ. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
902
E. B. SALOMAN
ible with the chosen energy levels. They used a stellarator as
their light source. They quote a wavelength uncertainty of
0.05–0.10 Å.
Sugar et al. 关91SUG兴 classified two Xe XXV resonance
lines. They used a tokamak as their light source. The estimated uncertainty of their wavelength measurements is
0.005 Å. Kaufman et al. 关88KAU兴 also classified those two
lines. They used the same source. The estimated uncertainty
of their wavelength measurements is 0.005 Å. It is their intensity measurement we use for the 关91SUG兴 lines.
Breton et al. 关88BRE兴 classified three lines 共including the
above two兲. They used a tokamak as their light source. The
quoted uncertainty of their wavelength measurements is 0.05
Å.
Hinnov et al. 关87HIN兴 classified one line 共included
above兲. They used a tokamak as their light source. The
quoted uncertainty of their wavelength measurements is 0.2
Å. Hinnov 关76HIN兴 classified another line 共included above兲.
He used another tokamak as his light source. The quoted
uncertainty of this wavelength measurement is 0.5 Å.
The order of priority in the selection of duplicate lines for
the Xe XXV line list was 关91SUG兴, 关88KAU兴, 关01HAC兴,
关88BRE兴, 关87HIN兴, and 关76HIN兴. As a result only 关91SUG兴
and 关01HAC兴 lines made the list. The intensities are not on a
common scale.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XXV levels. Only classifiable lines are included in our
compilation.
The intensity code given in the Xe XXV line table is taken
from 关01HAC兴. Its meaning is stated below:
Symbol
Definition
b
blended line
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
76HIN
E. Hinnov, Phys. Rev. 14, 1533 共1976兲.
87HIN
E. Hinnov, P. Beiersdorfer, R. Bell, J. Stevens,
S. Suckewer, S. von Goeler, A. Wouters, D.
Dietrich, M. Gerassimenko, and E. Silver, Phys.
Rev. A 35, 4876 共1987兲.
88BRE
C. Breton, C. DeMichelis, W. Hecq, M.
Mattioli, J. Ramette, B. Saoutic, C.
Bauche-Arnoult, J. Bauche, and J. F. Wyart,
Phys. Scr. 37, 33 共1988兲.
88KAU
V. Kaufman, J. Sugar, and W. L. Rowan, J. Opt.
Soc. Am. B 5, 1273 共1988兲.
91SUG
J. Sugar, V. Kaufman, D. H. Baik, Y-K Kim,
and W. L. Rowan, J. Opt. Soc. Am. B 8, 1795
共1991兲.
93SEE
J. F. Seely and A. Bar-Shalom, At. Data Nucl.
Data Tables 55, 143 共1993兲.
94BRO
C. M. Brown, J. F. Seely, D. R. Kania, B. A.
Hammel, C. A. Back, R. W. Lee, A.
Bar-Shalom, and W. E. Behring, At. Data Nucl.
Data Tables 58, 203 共1994兲.
01HAC
H. H. Hacker et al., Appl. Phys. B 73, 59
共2001兲.
Energy levels of Xe XXV
Energy level
共cm⫺1兲
0.
Parity
Configuration
0
4s 2
371 982
396 091
516 504
608 091
1
1
1
1
4s4p
4s4p
4s4p
4s4p
974 941
982 147
1 117 144
1 185 198
0
0
0
0
4p 2
4p 2
4p 2
4p 2
1 242 108
1 251 620
1 270 879
1 341 788
0
0
0
0
4s4d
4s4d
4s4d
4s4d
2 031 455
2 033 693
2 038 840
2 097 161
1
1
1
1
4s4 f
4s4 f
4s4 f
4s4 f
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
J
Source
of level
0
94BRO
P
P
3 ⴰ
P
1 ⴰ
P
0
1
2
1
94BRO
94BRO
94BRO
94BRO
3
P
D
3
P
1
S
1
2
2
0
94BRO
94BRO
94BRO
94BRO
3
1
2
3
2
94BRO
94BRO
94BRO
94BRO
2
3
4
3
94BRO
94BRO
94BRO
94BRO
Term
1
S
3 ⴰ
3 ⴰ
1
D
D
3
D
1
D
3
3 ⴰ
F
F
3 ⴰ
F
1 ⴰ
F
3 ⴰ
SPECTRAL LINES OF XENON
903
Spectral Lines of Xe XXV
Observed
vacuum
wavelength
共Å兲
101.66
109.45
114.80
116.70
131.40
132.65
136.25
145.40
164.412
166.45
252.473
272.5
Observed
wave
number
(103 cm⫺1 )
983.7
913.7
871.1
856.9
761.0
753.9
733.9
687.8
608.228
600.78
396.082
367.0
Intensity
and
comment
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
2
1
2
2
3
2
2
1
2
1
1
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.005
0.05
0.005
0.10
01HAC
01HAC
01HAC
01HAC
01HAC
01HAC
01HAC
01HAC
91SUG
01HAC
91SUG
01HAC
Classification
Configuration
30
50
100b
10
25
160
150
15
400
5
30
10
2
4p
4p 2
4s4p
4s4p
4s4d
4s4p
4s4p
4s4d
4s 2
4s4p
4s 2
4s4p
Term
3
P
P
3 ⴰ
P
3 ⴰ
P
3
D
3 ⴰ
P
1 ⴰ
P
1
D
1
S
3 ⴰ
P
1
S
1 ⴰ
P
3
4.26. Xe XXVI
Cu isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 104s 2 S1/2
Ionization energy 6 912 400⫾3 000 cm⫺1 共857.0⫾0.4 eV兲
关88KAU兴
Partial analyses of the spectrum of 25 times ionized xenon, Xe XXVI, were published by Seely et al. 关 89SEEb兴 and
Kaufman et al. 关88KAU兴. In the Xe XXVI level list, we use
the energy levels based on semiempirically corrected wavelengths 共along the Cu isoelectronic sequence兲 determined bySeely et al. 关 89SEEb兴 for all of the levels in our table except
that we use Kaufman et al. 关88KAU兴 for the 3d 106g 2 G and
ⴰ
3d 9 4s4p 2 P1/2
levels. The absence of decimal points for values in the Xe XXVI energy level table indicates that the values
between 1 000 000 and 2 100 000 cm⫺1 are good only to the
tens place while those above 2 100 000 cm⫺1 are only known
to the hundreds place except for 4 843 100 and 5 225 500
cm⫺1 which are only known to the thousands place.
Hacker et al. 关01HAC兴 observed 23 lines which they identified as being from Xe XXVI. Six of these were compatible
with the chosen energy levels. They used a stellarator as their
light source. They quote a wavelength uncertainty of 0.05–
0.10 Å.
Doron et al. 关99DOR兴 measured six Xe XXVI ‘‘features.’’
They used a laser-excited plasma as their source for spectroscopy. The estimated uncertainty of their wavelength measurements is 0.006 Å. However, each of the features is identified with several lines due to their spectral resolution of
only 0.05 Å. Since it was difficult to determine which lines
were observed we have not used their Xe XXVI data in this
compilation.
Sugar et al. 关91SUG兴 classified two Xe XXVI resonance
lines. They used a tokamak as their source, as did all the
following references. The quoted uncertainty of their wavelength measurements is 0.005 Å. We used the intensity values of 关88KAU兴 for these lines to put these two data sets on
J
Configuration
2
2
0
1
3
2
1
2
0
2
0
1
–
–
–
–
–
–
–
–
–
–
–
–
4s4 f
4s4 f
4s4d
4s4d
4s4 f
4s4d
4s4d
4s4 f
4s4p
4p 2
4s4p
4p 2
Term
1 ⴰ
F
F
3
D
3
D
3 ⴰ
F
3
D
1
D
3 ⴰ
F
1 ⴰ
P
3
P
3 ⴰ
P
3
P
3 ⴰ
a common scale. Seely et al. 关 89SEEa兴 also classified these
two resonance lines. The quoted uncertainty of their wavelength measurements is 0.03 Å. Kaufman et al. 关88KAU兴
classified seven lines. The quoted uncertainty of their wavelength measurements is 0.005 Å. Breton et al. 关88BRE兴 also
classified these seven lines. The quoted uncertainty of their
wavelength measurements is 0.05 Å. Wyart et al. 关85WYA兴
classified 11 lines. The quoted uncertainty of their wavelength measurements is 0.02 Å. Hinnov 关76HIN兴 first classified the two resonance lines. The quoted uncertainty of his
wavelength measurements is 0.5 Å.
Where duplicate lines exist, the priority order used for
selection was 关91SUG兴, 关88KAU兴, 关85WYA兴, 关 89SEEa兴 ,
关88BRE兴, 关01HAC兴, and 关76HIN兴. No 关01HAC兴, 关 89SEEa兴 ,
关88BRE兴, nor 关76HIN兴 lines are in Xe XXVI line list.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XXVI levels. Only classifiable lines are included in our
compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 are used to help resolve choices between
multiple possible classifications of lines. Except where noted
共for 关91SUG兴 and 关88KAU兴兲, intensities reported are those
given in the stated references and are not on a common scale.
The intensity codes given in the Xe XXVI line table are
taken from the stated references. Their meaning is stated
below:
Symbol
Definition
b
w
blend
wide line
The ionization energy was determined by Kaufman et al.
关88KAU兴 by means of spectral analysis.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
904
E. B. SALOMAN
Energy levels of Xe XXVI
References
76HIN
81COW
E. Hinnov, Phys. Rev. 14, 1533 共1976兲.
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
85WYA
J. F. Wyart, C. Bauche-Arnoult, E. Luc-Koenig,
and TFR Group, Phys. Scr. 32, 103 共1985兲.
88BRE
C. Breton, C. DeMichelis, W. Hecq, M.
Mattioli, J. Ramette, B. Saoutic, C.
Bauche-Arnoult, J. Bauche, and J. F. Wyart,
Phys. Scr. 37, 33 共1988兲.
88KAU
V. Kaufman, J. Sugar, and W. L. Rowan, J. Opt.
Soc. Am. B 5, 1273 共1988兲.
89SEEa
J. F. Seely, U. Feldman, A. W. Wouters, J. L.
Schwob, and S. Suckewer, Phys. Rev. A 40,
5020 共1989兲.
89SEEb
J. F. Seely, C. M. Brown, and U. Feldman, At.
Data Nucl. Data Tables 43, 145 共1989兲.
91SUG
J. Sugar, V. Kaufman, D. H. Baik, Y-K Kim,
and W. L. Rowan, J. Opt. Soc. Am. B 8, 1795
共1991兲.
99DOR
01HAC
Energy level
共cm⫺1兲
R. Doron, E. Behar, P. Mandelbaum, J. L.
Schwob, H. Fiedorowicz, A. Bartnik, R.
Jarocki, M. Szczurek, and T. Wilhein, Phys.
Rev. A 59, 188 共1999兲.
H. H. Hacker et al., Appl. Phys. B 73, 59
共2001兲.
J
Source
of level
1/2
89SEEb
1/2
3/2
89SEEb
89SEEb
3/2
5/2
89SEEb
89SEEb
2 ⴰ
5/2
7/2
89SEEb
89SEEb
3d 105s
2
1/2
89SEEb
1
1
3d 105p
3d 105p
2 ⴰ
1/2
3/2
89SEEb
89SEEb
3 469 100
3 483 100
0
0
3d 105d
3d 105d
2
3/2
5/2
89SEEb
89SEEb
3 805 800
3 808 700
1
1
3d 105 f
3d 105 f
2 ⴰ
5/2
7/2
89SEEb
89SEEb
3 934 900
3 935 900
0
0
3d 105g
3d 105g
2
G
G
7/2
9/2
89SEEb
89SEEb
4 843 100
4 843 300
0
0
3d 106g
3d 106g
2
G
G
7/2
9/2
88KAU
88KAU
5 225 500
1
3d 9 4s4p
1/2
88KAU
Parity
Configuration
Term
0.
0
3d 104s
2
427 411.
574 917.
1
1
3d 104p
3d 104p
2 ⴰ
1 268 220
1 297 510
0
0
3d 104d
3d 104d
2
2 034 900
2 039 070
1
1
3d 104 f
3d 104 f
2 ⴰ
2 884 100
0
3 083 100
3 149 700
S
P
P
2 ⴰ
2
D
D
F
F
S
P
P
2 ⴰ
2
D
D
F
F
2 ⴰ
2
2
2 ⴰ
P
Spectral lines of Xe XXVI
Observed
vacuum
wavelength
共Å兲
19.137
34.380
35.61
35.660
39.410
40.731
43.315
52.615
52.710
54.030
55.145
118.935
130.428
134.852
138.389
144.230
173.938
233.959
Observed
wave
number
(103 cm⫺1 )
5225.
2908.7
2808.2
2804.3
2537.4
2455.1
2308.7
1900.6
1897.2
1850.8
1813.4
840.80
766.71
741.55
722.60
693.34
574.917
427.425
Intensity
and
comment
5
5
1
5w
10b
100b
15
10bw
30b
10
10
50
2
5
40
2
400
200
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1/2
5/2
7/2
9/2
5/2
1/2
1/2
7/2
9/2
3/2
1/2
3/2
5/2
7/2
5/2
3/2
3/2
1/2
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.005
0.005
0.005
0.005
0.005
0.005
0.005
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
88KAU
88KAU
88KAU
88KAU
88KAU
91SUG
91SUG
Classification
Configuration
10
3d 4s
3d 104p
3d 104 f
3d 104 f
3d 104d
3d 104p
3d 104p
3d 104 f
3d 104 f
3d 104d
3d 104d
3d 104p
3d 104d
3d 104d
3d 104p
3d 104p
3d 104s
3d 104s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
S
P
2 ⴰ
F
2 ⴰ
F
2
D
2 ⴰ
P
2 ⴰ
P
2 ⴰ
F
2 ⴰ
F
2
D
2
D
2 ⴰ
P
2
D
2
D
2 ⴰ
P
2 ⴰ
P
2
S
2
S
2 ⴰ
J
1/2
3/2
5/2
7/2
3/2
1/2
3/2
5/2
7/2
5/2
3/2
1/2
3/2
5/2
3/2
3/2
1/2
1/2
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
9
3d 4s4p
3d 105d
3d 106g
3d 106g
3d 105 f
3d 105s
3d 105s
3d 105g
3d 105g
3d 105p
3d 105p
3d 104d
3d 104 f
3d 104 f
3d 104d
3d 104d
3d 104p
3d 104p
Term
2 ⴰ
P
D
2
G
2
G
2 ⴰ
F
2
S
2
S
2
G
2
G
2 ⴰ
P
2 ⴰ
P
2
D
2 ⴰ
F
2 ⴰ
F
2
D
2
D
2 ⴰ
P
2 ⴰ
P
2
SPECTRAL LINES OF XENON
4.27. Xe XXVII
Ni isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 10 1 S0
Ionization energy 12 015 000⫾36 000 cm⫺1 共1 490⫾4 eV兲
关89TRA兴
Partial analyses of the spectrum of 26 times ionized xenon, Xe XXVII, were published by Skobelev et al. 关99SKO兴,
Doron et al. 关99DOR兴, Ros et al. 关98ROS兴, and Wyart et al.
关85WYA兴. We use the energy levels determined by Skobelev
et al. 关99SKO兴 for the 3d 9 4p levels and we use levels based
on the wavelengths of Ros et al. 关98ROS兴 for the 3p 5 4s,
3d 9 4d, and 3d 9 4 f 3 Pⴰ1 levels and the wavelengths of Wyart
et al. 关85WYA兴 for the other 3d 9 4 f and the 3d 9 4s levels.
The absence of decimal points for values in the Xe XXVII
energy level table indicates that the values between
4 700 000 and 4 900 000 cm⫺1 have 5000 cm⫺1 uncertainties,
the values between 5 000 000 and 6 000 000 cm⫺1 have 150
cm⫺1 uncertainties, the values between 6 500 000 and
7 500 000 cm⫺1 have 10 000 cm⫺1 uncertainties. The
6 356 540 cm⫺1 level has an uncertainty of 500 cm⫺1.
Lu et al. 关02LU兴 reported observing lasing in two Xe
XXVII resonance lines. The lasing took place in a picosecondlaser-irradiated gas-puff Xe target. They quote a wavelength
uncertainty of 0.2 Å.
Hacker et al. 关01HAC兴 observed 14 lines which they identified as being from Xe XXVII. Only one of these was compatible with the chosen energy levels. They used a stellarator
as their light source. They quote a wavelength uncertainty of
0.05–0.10 Å.
Skobelev et al. 关99SKO兴 classified three Xe XXVII lines.
They used a laser-excited plasma as their source for spectroscopy. The quoted uncertainty of their wavelength measurements is 0.0005 Å. With these wavelengths, we use the intensity values of Wyart et al. 关85WYA兴 in the Xe XXVII line
table, so that all lines with quoted intensities are on a common scale. Doron et al. 关99DOR兴 also classified these three
Xe XXVII lines. They used a laser-excited plasma as their
source for spectroscopy. The estimated uncertainty of their
wavelength measurements is 0.006 Å.
Ros et al. 关98ROS兴 classified six lines. They used a laserexcited plasma as their source. Their estimated uncertainty is
0.02 Å below 20 Å and is reported as 0.05 Å near 100 Å.
Two of these lines, near 100 Å, were reported to be lasing.
Fiedorowicz et al. 关96FIE兴 also reported strong indications
of lasing in Xe XXVII at 100 Å.
Wyart et al. 关85WYA兴 classified seven lines. They used a
tokamak as their light source. The quoted uncertainty of their
wavelength measurements is 0.02 Å.
Where duplicate lines exist, the priority order used for
selection was 关99SKO兴, 关99DOR兴, 关85WYA兴, 关98ROS兴,
关01HAC兴, and 关02LU兴. No 关02LU兴, 关01HAC兴, or 关99DOR兴
lines are in the Xe XXVII line list.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XXVII levels. Only classifiable lines are included in our
compilation.
905
The intensity code given in the Xe XXVII line table has the
meaning stated below:
Symbol
Definition
E2
electric quadrupole line
The ionization energy was determined by Tragin et al.
关89TRA兴 by means of semiempirical adjustments of ab initio
calculations along the Ni isoelectronic sequence.
References
85WYA
J. F. Wyart, C. Bauche-Arnoult, E. Luc-Koenig,
and TFR Group, Phys. Scr. 32, 103 共1985兲.
89TRA
N. Tragin, J.-P. Geindre, C. Chenais-Popovics,
J.-C. Gauthier, J.-F. Wyart, and E. Luc-Koenig,
Phys. Rev. A 39, 2085 共1989兲.
96FIE
H. Fiedorowicz, A. Bartnik, Y. Li, P. Lu, and E.
Fill, Phys. Rev. Lett. 76, 415 共1996兲.
98ROS
D. Ros, H. Fiedorowicz, B. Rus, A. Bartnik, M.
Szczurek, G. Jamelot, F. Albert, A. Carillon, P.
Jaeglé, A. Klisnick, S. Sebban and P. Zeitoun,
Opt. Commun. 153, 368 共1998兲.
99DOR
R. Doron, E. Behar, P. Mandelbaum, J. L.
Schwob, H. Fiedorowicz, A. Bartnik, R.
Jarocki, M. Szczurek, and T. Wilhein, Phys.
Rev. A 59, 188 共1999兲.
99SKO
I. Yu Skobelev, V. M. Dyakin, A. Ya Faenov, A.
Bartnik, H. Fiedorowicz, R. Jarocki, J.
Kostecki, M. Szczurek, E. Biémont, P. Quinet,
J. Nilsen, E. Behar, R. Doron, P. Mandelbaum
and J. L. Schwob, J. Phys. B 32, 113 共1999兲.
01HAC
H. H. Hacker et al., Appl. Phys. B 73, 59
共2001兲.
02LU
P. Lu, T. Kawachi, M. Kishimoto, K.
Sukegawa, M. Tanaka, N. Hasegawa, M.
Suzuki, R. Tai, M. Kado, K. Nagashima, H.
Daido, Y. Kato, H. Fiedorowicz, and A. Bartnik,
Opt. Lett. 27, 1911 共2002兲.
Energy levels of Xe XXVII
Energy level
共cm⫺1兲
J
Source
of level
S
0
99SKO
3p 6 3d 9 4s
3p 6 3d 9 4s
共5/2,1/2兲
共3/2,1/2兲
2
2
85WYA
85WYA
1
1
1
3p 6 3d 9 4p
3p 6 3d 9 4p
3p 6 3d 9 4p
3 ⴰ
P
P
3 ⴰ
D
1
1
1
99SKO
99SKO
99SKO
6 356 540
0
3p 6 3d 9 4d
共3/2,3/2兲
0
98ROS
6 757 000
6 841 000
7 019 000
1
1
1
3p 6 3d 9 4 f
3p 6 3d 9 4 f
3p 6 3d 9 4 f
P
Dⴰ
1 ⴰ
P
1
1
1
98ROS
85WYA
85WYA
7 375 000
1
3p 5 3d 104s
(1/2,1/2) ⴰ
1
98ROS
Parity
Configuration
0.
0
3p 6 3d 10
4 771 000
4 878 000
0
0
5 310 820
5 356 130
5 456 880
Term
1
1 ⴰ
3 ⴰ
3
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
906
E. B. SALOMAN
Spectral lines of Xe XXVII
Observed
vacuum
wavelength
共Å兲
13.56
14.247
14.618
14.80
18.3255
18.6702
18.8295
20.502
20.961
95.60
99.99
Observed
wave
number
(103 cm⫺1 )
7375.
7019.
6841.
6757.
5456.88
5356.13
5310.82
4878.
4771.
1046.0
1000.1
Intensity
and
comment
Configuration
6
70
20
40
70
30
70E2
100E2
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
1
1
1
1
2
2
0
0
0.02
0.02
0.02
0.02
0.0005
0.0005
0.0005
0.02
0.02
0.05
0.05
98ROS
85WYA
85WYA
98ROS
99SKO
99SKO
99SKO
85WYA
85WYA
98ROS
98ROS
Classification
10
3p 3d
3p 6 3d 10
3p 6 3d 10
3p 6 3d 10
3p 6 3d 10
3p 6 3d 10
3p 6 3d 10
3p 6 3d 10
3p 6 3d 10
3p 6 3d 9 4p
3p 6 3d 9 4p
Term
1
S
S
S
1
S
1
S
1
S
1
S
1
S
1
S
3 ⴰ
P
1 ⴰ
P
1
1
J
0
0
0
0
0
0
0
0
0
1
1
4.28. Xe XXVIII
Co isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 9 2 D5/2
Ionization energy 12 030 000 cm⫺1 共1 491 eV兲 关70CAR兴
A partial analysis of the spectrum of 27 times ionized
xenon, Xe XXVIII, was published by Ekberg et al. 关87EKB兴.
We use their energy levels which are based on semiempirically corrected wavelengths. The absence of decimal points
for values in the energy level table indicates that the values
above zero, in order of increasing value, have uncertainties
of 110, 210, and 320 cm⫺1, respectively.
Doron et al. 关99DOR兴 measured one Xe XXVIII ‘‘feature’’
at 17.735 Å. They used a laser-excited plasma as their source
for spectroscopy. The estimated uncertainty of their wavelength measurements is 0.006 Å. However, the feature is
identified with several lines due to spectral resolution of only
0.05 Å. Since it is difficult to determine which lines were
observed we have not used their Xe XXVIII data in this compilation.
Ros et al. 关98ROS兴 measured a blended transition array at
13.70 Å. They used a laser-excited plasma as their source.
The estimated uncertainty of their wavelength measurements
is 0.02 Å. However, since the array was unresolved we did
not include it in our compilation.
Wyart et al. 关85WYA兴 classified three lines. They used a
tokamak as their light source. The quoted uncertainty of their
Configuration
–
–
–
–
–
–
–
–
–
–
–
5
10
3p 3d 4s
3p 6 3d 9 4 f
3p 6 3d 9 4 f
3p 6 3d 9 4 f
3p 6 3d 9 4p
3p 6 3d 9 4p
3p 6 3d 9 4p
3p 6 3d 9 4s
3p 6 3d 9 4s
3p 6 3d 9 4d
3p 6 3d 9 4d
Term
ⴰ
(1/2,1/2)
1 ⴰ
P
3 ⴰ
D
3 ⴰ
P
3 ⴰ
D
1 ⴰ
P
3 ⴰ
P
共3/2,1/2兲
共5/2,1/2兲
共3/2,3/2兲
共3/2,3/2兲
wavelength measurements is 0.02 Å. In addition they reported two blended transition arrays including the one observed by Doron et al. 关99DOR兴 and the one measured by
Ros et al. 关98ROS兴. These arrays have not been included
here for the reasons stated above.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XXVIII levels. Only classifiable lines are included in our
compilation.
Intensities reported are those given in the stated reference.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
85WYA
J. F. Wyart, C. Bauche-Arnoult, E. Luc-Koenig,
and TFR Group, Phys. Scr. 32, 103 共1985兲.
87EKB
J. O. Ekberg, U. Feldman, J. F. Seely, C. M.
Brown, J. Reader, and N. Acquista, J. Opt. Soc.
Am. B 4, 1913 共1987兲.
98ROS
D. Ros, H. Fiedorowicz, B. Rus, A. Bartnik, M.
Szczurek, G. Jamelot, F. Albert, A. Carillon, P.
Jaeglé, A. Klisnick, S. Sebban, and P. Zeitoun,
Opt. Commun. 153, 368 共1998兲.
99DOR
R. Doron, E. Behar, P. Mandelbaum, J. L.
Schwob, H. Fiedorowicz, A. Bartnik, R.
Jarocki, M. Szczurek, and T. Wilhein, Phys.
Rev. A 59, 188 共1999兲.
Energy levels of Xe XXVIII
Energy level
共cm⫺1兲
Parity
Configuration
0.
109 340
0
0
3p 6 3d 9
3p 6 3d 9
2
2 056 170
2 579 450
1
1
3p 5 3d 10
3p 5 3d 10
2 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
2
D
D
P
P
2 ⴰ
J
Source
of level
5/2
3/2
87EKB
87EKB
3/2
1/2
87EKB
87EKB
SPECTRAL LINES OF XENON
907
Spectral lines of Xe XXVIII
Observed
vacuum
wavelength
共Å兲
40.490
48.640
51.355
Observed
wave
number
(103 cm⫺1 )
Intensity
and
comment
2469.7
2055.9
1947.2
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1/2
3/2
3/2
0.02
0.02
0.02
85WYA
85WYA
85WYA
Classification
Configuration
30
100
10
6
9
3p 3d
3p 6 3d 9
3p 6 3d 9
Term
2
D
D
2
D
2
J
Configuration
3/2
5/2
3/2
4.29. Xe XXIX
Fe isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 8 关 4,4兴 4
Ionization energy 12 800 000 cm⫺1 共1 587 eV兲 关70CAR兴
Partial analyses of the spectrum of 28 times ionized xenon, Xe XXIX, were published by Ekberg et al. 关88EKB兴 and
Wyart et al. 关85WYA兴. We use the energy levels determined
by Ekberg et al. 关88EKB兴 from the data of Wyart et al.
关85WYA兴 for all of the levels in the Xe XXIX energy level
table except for two levels which are only predicted by Ekberg et al. 关88EKB兴. For these we calculate values of
173 640 and 2 580 960 cm⫺1 from the 40.335 and 41.540 Å
lines of 关85WYA兴 using the 101 720 cm⫺1 level of Ekberg
et al. 关88EKB兴 as a starting point. The absence of decimal
points for values in the Xe XXIX energy level table indicates
that the values have uncertainties of 500 cm⫺1 except for the
173 640 and 2 580 960 cm⫺1 levels whose uncertainties are
1700 and 1200 cm⫺1, respectively. Note that we follow Ekberg et al. 关88EKB兴 in designating 3p 6 3d 8 levels with the
notation 关 N 1 ,N 2 兴 to indicate the number, N 1 , of 3d 3/2 and
the number, N 2 , of 3d 5/2 electrons.
Doron et al. 关99DOR兴 reported one Xe XXIX ‘‘feature’’ at
16.9–17.1 Å. They used a laser-excited plasma as their
source for spectroscopy. The estimated uncertainty of their
wavelength measurements is 0.006 Å. However, the feature
is only identified with the 3d 8 – 3d 7 4p transition array due to
a spectral resolution of only 0.05 Å. Since we cannot determine which lines were observed we have not used their XeXXIX data in this compilation.
Ros et al. 关98ROS兴 measured a blended transition array at
13.27 Å. They used a laser excited plasma as their source.
The estimated uncertainty of their wavelength measurements
is 0.02 Å. However, since the array was unresolved we did
not include it in our compilation.
Wyart et al. 关85WYA兴 classified 17 lines. They used a
tokamak as their light source. The quoted uncertainty of their
wavelength measurements is 0.02 Å. They also reported the
two unresolved transition arrays, at 13.27 and 17.0 Å, which
are not included in this compilation.
–
–
–
5
10
3p 3d
3p 5 3d 10
3p 5 3d 10
Term
2 ⴰ
P
P
2 ⴰ
P
2 ⴰ
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XXIX levels. Only classifiable lines are included in our
compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 are used to help resolve choices between
multiple possible classifications of lines. Intensities reported
are those given in the stated reference.
The intensity codes given in the Xe XXIX line table have
the meaning stated below:
Symbol
Definition
b
blend
w
wide line
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
85WYA
J. F. Wyart, C. Bauche-Arnoult, E. Luc-Koenig,
and TFR Group, Phys. Scr. 32, 103 共1985兲.
88EKB
J. O. Ekberg, U. Feldman, and J. Reader, J. Opt.
Soc. Am. B 5, 1275 共1988兲.
98ROS
D. Ros, H. Fiedorowicz, B. Rus, A. Bartnik, M.
Szczurek, G. Jamelot, F. Albert, A. Carillon, P.
Jaeglé, A. Klisnick, S. Sebban and P. Zeitoun,
Opt. Commun. 153, 368 共1998兲.
99DOR
R. Doron, E. Behar, P. Mandelbaum, J. L.
Schwob, H. Fiedorowicz, A. Bartnik, R.
Jarocki, M. Szczurek, and T. Wilhein, Phys.
Rev. A 59, 188 共1999兲.
Energy levels of Xe XXIX
Energy level
共cm⫺1兲
Parity
Configuration
Term
J
Source
of level
0.
46 620
101 720
0
0
0
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
关4,4兴
关4,4兴
关3,5兴
4
2
3
88EKB
88EKB
88EKB
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
908
E. B. SALOMAN
Energy levels of Xe XXIX—Continued
Energy level
共cm⫺1兲
Parity
Configuration
Term
J
Source
of level
145 810
0
3p 6 3d 8
关3,5兴
2
88EKB
173 640
183 990
241 330⫹x
0
0
0
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
关3,5兴
关3,5兴
关2,6兴
1
4
2
85WYA
88EKB
88EKB
1 957 520
1 996 510
2 060 790
2 124 970
2 137 340
2 186 370
2 191 850
2 580 960
2 639 150
2 604 840⫹x
1
1
1
1
1
1
1
1
1
1
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
(1/2,5/2) ⴰ
(1/2,5/2) ⴰ
(1/2,3/2) ⴰ
4
2
3
1
2
3
1
2
3
2
88EKB
88EKB
88EKB
88EKB
88EKB
88EKB
88EKB
85WYA
88EKB
88EKB
Spectral lines of Xe XXIX
Observed
vacuum
wavelength
共Å兲
39.410
40.335
40.731
41.540
42.310
45.730
46.615
47.970
48.115
48.525
48.875
49.125
49.940
51.085
51.285
52.220
53.885
Observed
wave
number
(103 cm⫺1 )
2537.4
2479.2
2455.1
2407.3
2363.5
2186.7
2145.2
2084.6
2078.4
2060.8
2046.0
2035.6
2002.4
1957.5
1949.9
1915.0
1855.8
Intensity
and
comment
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3
2
3
2
2
3
1
3
1
3
1
2
3
4
2
3
4
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
85WYA
Classification
Configuration
10b
10
100b
5
5
15
5w
10
5
50
5
20
15
50
20w
5
5
6
8
3p 3d
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
3p 6 3d 8
Term
关3,5兴
关3,5兴
关3,5兴
关3,5兴
关2,6兴
关4,4兴
关4,4兴
关3,5兴
关4,4兴
关4,4兴
关3,5兴
关3,5兴
关3,5兴
关4,4兴
关4,4兴
关3,5兴
关3,5兴
J
3
3
4
1
2
4
2
3
2
4
2
3
4
4
2
2
3
4.30. Xe XXX
Mn isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 7 4 F9/2
Ionization energy 13 580 000 cm⫺1 共1 684 eV兲 关70CAR兴
The ground state of Xe XXX was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion.
Wyart et al. 关85WYA兴 reported observing two unresolved
transition arrays at 12.81 and 16.2 Å. They used a tokamak
as their light source. The quoted uncertainty of their wavelength measurements is 0.01–0.02 Å.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Configuration
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
5
9
3p 3d
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
3p 5 3d 9
Term
ⴰ
(1/2,5/2)
(1/2,5/2) ⴰ
(1/2,5/2) ⴰ
(1/2,5/2) ⴰ
(1/2,3/2) ⴰ
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
References
70CAR
81COW
85WYA
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
J. F. Wyart, C. Bauche-Arnoult, E. Luc-Koenig,
and TFR Group, Phys. Scr. 32, 103 共1985兲.
4.31. Xe XXXI
Cr isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 6 5 D4
Ionization energy 14 360 000 cm⫺1 共1 781 eV兲 关70CAR兴
The ground state of Xe XXXI was determined by means of
a calculation using the Cowan codes 关81COW兴. Crespo
López-Urrutia et al. 关02CRE兴 tentatively classify a line ob-
SPECTRAL LINES OF XENON
served using an EBIT at 5557⫾10 Å as a forbidden intraconfiguration transition within the 3d 6 configuration. Wyart
et al. 关85WYA兴 reported observing two unresolved transition
arrays at 12.4 and 15.5 Å. They used a tokamak as their light
source. The quoted uncertainty of their wavelength measurements is 0.01–0.02 Å.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
85WYA
J. F. Wyart, C. Bauche-Arnoult, E. Luc-Koenig,
and TFR Group, Phys. Scr. 32, 103 共1985兲.
02CRE
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
4.33. Xe XXXIII
Ti isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 4 5 D0
Ionization energy 16 030 000 cm⫺1 共1 987 eV兲 关70CAR兴
The ground state of Xe XXXIII was reported as 5 D0 by
Serpa et al. 关97SER兴. A calculation using the Cowan codes
关81COW兴 indicates that although the ground state has its
largest contribution from the 5 D0 , the next lowest J⫽0 even
parity level has a somewhat larger contribution of 5 D0 than
the ground state. One forbidden intraconfiguration transition
within the 3d 4 configuration has been observed by several
groups using EBIT sources. It was first reported by Morgan
et al. 关95MOR兴 and classified as 5 D3 – 5 D2 . Watanabe et al.
关01WAT兴 reported a wavelength of 4138.8⫾0.7 Å. Crespo
López-Urrutia et al. 关02CRE兴 also observed this line.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
95MOR
C. A. Morgan, F. G. Serpa, E. Takács, E. S.
Meyer, J. D. Gillaspy, J. Sugar, J. R. Roberts, C.
M. Brown, and U. Feldman, Phys. Rev. Lett. 74,
1716 共1995兲.
97SER
F. G. Serpa, C. A. Morgan, E. S. Meyer, J. D.
Gillaspy, E. Träbert, D. A. Church, and E.
Takács, Phys. Rev. 55, 4196 共1997兲.
01WAT
H. Watanabe, D. Crosby, F. J. Currell, T.
Fukami, D. Kato, S. Ohtani, J. D. Silver, and C.
Yamada, Phys. Rev A 63, 042513 共2001兲.
02CRE
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
4.32. Xe XXXII
V isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 5 6 S5/2
Ionization energy 15 140 000 cm⫺1 共1 877 eV兲 关70CAR兴
The ground state of Xe XXXII was determined by means of
a calculation using the Cowan codes 关81COW兴. Morgan
et al. 关95MOR兴 classified a forbidden intraconfiguration transition within the 3d 5 configuration at 3962.5 Å as
4
G7/2 – 4 G9/2 . They used an EBIT as their source and their
uncertainty was 2 Å. Crespo López-Urrutia et al. 关02CRE兴,
also using an EBIT, observed this line and another one at
5984⫾10 Å which they classified as 4 G9/2 – 4 G11/2 within the
same configuration.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
909
4.34. Xe XXXIV
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
95MOR
C. A. Morgan, F. G. Serpa, E. Takács, E. S.
Meyer, J. D. Gillaspy, J. Sugar, J. R. Roberts, C.
M. Brown, and U. Feldman, Phys. Rev. Lett. 74,
1716 共1995兲.
02CRE
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
Sc isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 6 3d 3 4 F3/2
Ionization energy 16 820 000 cm⫺1 共2 085 eV兲 关70CAR兴
The ground state of Xe XXXIV was determined by means
of a calculation using the Cowan codes 关81COW兴. Crespo
López-Urrutia et al. 关02CRE兴 report two lines observed using an EBIT at 4456⫾5 Å and at 6327⫾15 Å as unclassified
forbidden transitions. No other lines and no level energies
have been reported.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
910
E. B. SALOMAN
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
02CRE
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
4.35. Xe XXXV
Ca isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 2 3 F2
Ionization energy 17 610 000 cm⫺1 共2 183 eV兲 关70CAR兴
The ground state of Xe XXXV was determined by means of
a calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
4.36. Xe XXXVI
K isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 3d 2 D3/2
Ionization energy 18 400 000 cm⫺1 共2 281 eV兲 关70CAR兴
The ground state of Xe XXXVI was determined by means
of a calculation using the Cowan codes 关81COW兴. Crespo
López-Urrutia et al. 关02CRE兴 report a weak line observed
using an EBIT at 5479⫾10 Å as an unclassified forbidden
transition. No other lines and no level energies have been
reported.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
02CRE
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
Crespo López-Urrutia et al. 关02CRE兴 report a weak line
observed using an EBIT at 4970⫾6 Å as an unclassified
Xe XXXVII forbidden transition. No other lines and no level
energies have been reported.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
02CRE
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
4.38. Xe XXXVIII
Cl isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 5 2 P3/2
⫺1
Ionization energy 21 270 000 cm 共2 637 eV兲 关70CAR兴
The ground state of Xe XXXVIII was determined by means
of a calculation using the Cowan codes 关81COW兴. Crespo
López-Urrutia et al. 关02CRE兴 report two weak lines observed using an EBIT at 6066⫾15 Å and at 6142⫾15 Å as
unclassified forbidden transitions. No other lines and no level
energies have been reported.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
02CRE
J. R. Crespo López-Urrutia, P. Beiersdorfer, K.
Widmann, and V. Decaux, Can. J. Phys. 80,
1687 共2002兲.
4.39. Xe XXXIX
S isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 3 p 4 3 P2
Ionization energy 21 990 000 cm⫺1 共2 726 eV兲 关70CAR兴
The ground state of Xe XXXIX was determined by means
of a calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
4.37. Xe XXXVII
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
Ar isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 6 1 S0
Ionization energy 20 550 000 cm⫺1 共2 548 eV兲 关70CAR兴
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
SPECTRAL LINES OF XENON
4.40. Xe XL
P isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2p 6 3s 2 3p 3 4 S3/2
⫺1
Ionization energy 22 700 000 cm 共2 814 eV兲 关70CAR兴
The ground state of Xe XL was determined by means of a
calculation using the Cowan codes 关81COW兴. We note that
the ground state is quite mixed and the 4 Sⴰ is not even the
largest contributor to the eigenvector. No wavelengths or energy levels have been reported for this ion.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
The ground state of Xe XLII was determined by means of a
calculation using the Cowan codes 关81COW兴. Träbert et al.
关95TRA兴, using beam–foil spectroscopy, observed three
lines. They classified them as intercombination transitions
ⴰ
– 4 P1/2 at
between the 3s 2 3 p and 3s3 p 2 configurations: 2 P1/2
2 ⴰ
4
122.5⫾0.5 Å, P3/2 – P5/2 at 127.9⫾1.0 Å 共a blend兲, and
2 ⴰ
P3/2 – 4 P3/2 at 147.⫾2. Å.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
95TRA
E. Träbert, J. Doerfert, J. Granzow, R. Büttner,
U. Staude, K.-H. Schartner, P. Rymuza, L.
Engström, and R. Hutton, Z. Phys. D 32, 295
共1995兲.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
4.41. Xe XLI
Si isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 3p 2 3 P0
Ionization energy 24 200 000 cm⫺1 共3 001 eV兲 关70CAR兴
The ground state of Xe XLI was determined by means of a
calculation using the Cowan codes 关81COW兴. Träbert et al.
关95TRA兴, using beam–foil spectroscopy, tentatively identified two lines at 120⫾1 Å and 127.9⫾1.0 Å as the intercombination transitions 3s 2 3p 2 3 P1,2 – 3s3p 3 5 Sⴰ2 . However this
classification remains in dispute 关97BEN兴, 关99TRA兴,
关03HUA兴.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
95TRA
E. Träbert, J. Doerfert, J. Granzow, R. Büttner,
U. Staude, K.-H. Schartner, P. Rymuza, L.
Engström, and R. Hutton, Z. Phys. D 32, 295
共1995兲.
97BEN
P. Bengtsson, K. Ando, T. Kambara, Y. Awaya,
and R. Hutton, Phys. Scr. T73, 81 共1997兲.
99TRA
E. Träbert, Phys. Scr. 59, 443 共1999兲.
03HUA
M. Huang, R. Hutton, Y. Zou, K. Ando, and H.
Oyama, Nucl. Instrum. Methods Phys. Res. B
205, 119 共2003兲.
4.42. Xe XLII
Al isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2p 6 3s 2 3p 2 P1/2
⫺1
Ionization energy 24 950 000 cm 共3 093 eV兲 关70CAR兴
911
4.43. Xe XLIII
Mg isoelectronic sequence
Ground state 1s 2 2s 2 2 p 6 3s 2 1 S0
Ionization energy 26 580 000 cm⫺1 共3 296 eV兲 关70CAR兴
An analysis of the spectrum of 42 times ionized xenon,
Xe XLIII, using fitted energy levels across the Mg isoelectronic sequence, was published by Ekberg et al. 关91EKB兴.
We use the energy levels determined by Ekberg et al.
关91EKB兴 for all of the levels in the Xe XLIII energy level
table. The absence of decimal points for values in the table
indicates that the values have uncertainties of 300–500 cm⫺1
共with the higher uncertainties for the higher values兲.
Träbert et al. 关95TRA兴 reported three possible Xe XLIII
lines but two were blended with lines of other Xe ions. They
used beam foil spectroscopy for their measurements. The
estimated uncertainty of their wavelength measurements is
0.5 Å.
Ekberg et al. 关91EKB兴, while reporting no measurements
on Xe XLIII, did refer to unpublished Xe XLIII data taken at
the PLT tokamak for one line which they use in their observed column to compare with their fitted value of level
energy. We use this line. The estimated uncertainty of the
wavelength measurements is 0.03 Å.
Seely et al. 关88SEE兴 classified one line. They used a tokamak as their light source. The quoted uncertainty of their
wavelength measurements is 0.03 Å.
Where duplicate lines exist, the priority order used for
selection was 关88SEE兴, 关91EKB兴, and 关95TRA兴. No
关95TRA兴 lines are in the Xe XLIII line table.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe XLIII levels. Only classifiable lines are included in our
compilation.
Transition probability calculations utilizing the Cowan
codes 关81COW兴 and the presence/intensity of lines in the
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
912
E. B. SALOMAN
isoelectronic sequence are used to help resolve choices between multiple possible classifications of lines. An ‘‘*’’ in
the intensity and comment column of the line table indicates
that the line is multiply classified.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
88SEE
J. F. Seely, J. O. Ekberg, U. Feldman, J. L.
Schwob, S. Suckewer, and A. Wouters, J. Opt.
Soc. Am. B 5, 602 共1988兲.
91EKB
J. O. Ekberg, U. Feldman, J. F. Seely, C. M.
Brown, B. J. MacGowan, D. R. Kania, and C. J.
Keane, Phys. Scr. 43, 19 共1991兲.
95TRA
E. Träbert, J. Doerfert, J. Granzow, R. Büttner,
U. Staude, K.-H. Schartner, P. Rymuza, L.
Engström, and R. Hutton, Z. Phys. D 32, 295
共1995兲.
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
Energy levels of Xe XLIII
Energy level
共cm⫺1兲
Parity
Configuration
0.
0
3s 2
699 590
769 730
1 381 050
1 589 960
1
1
1
1
3s3p
3s3p
3s3p
3s3p
1 678 350
2 283 100
2 289 410
2 582 630
3 121 880
0
0
0
0
0
3p 2
3p 2
3p 2
3p 2
3p 2
2 546 510
2 698 720
2 770 070
3 059 000
0
0
0
0
3s3d
3s3d
3s3d
3s3d
3 303 830
3 479 340
3 550 070
3 550 430
4 044 980
4 102 860
4 105 720
4 107 190
4 136 570
4 210 850
4 330 260
4 390 230
1
1
1
1
1
1
1
1
1
1
1
1
3p3d
3p3d
3p3d
3p3d
3p3d
3p3d
3p3d
3p3d
3p3d
3p3d
3p3d
3p3d
5 158 810
5 288 520
5 290 180
5 355 740
5 360 640
5 384 250
5 480 060
5 525 460
0
0
0
0
0
0
0
0
3d 2
3d 2
3d 2
3d 2
3d 2
3d 2
3d 2
3d 2
J
Source
of level
0
91EKB
P
P
P
1 ⴰ
P
0
1
2
1
91EKB
91EKB
91EKB
91EKB
3
P
D
P
3
P
1
S
0
2
1
2
0
91EKB
91EKB
91EKB
91EKB
91EKB
3
1
3
2
2
91EKB
91EKB
91EKB
91EKB
2
1
2
3
2
3
0
1
4
2
3
1
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
2
0
3
4
2
1
4
2
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
91EKB
Term
1
S
3 ⴰ
3 ⴰ
3 ⴰ
1
3
D
D
3
D
1
D
3
3 ⴰ
F
Dⴰ
1 ⴰ
D
3 ⴰ
F
3 ⴰ
D
3 ⴰ
D
3 ⴰ
P
3 ⴰ
P
3 ⴰ
F
3 ⴰ
P
1 ⴰ
F
1 ⴰ
P
3
3
F
P
F
3
F
1
D
3
P
1
G
3
P
3
3
Spectral lines of Xe XLIII
Observed
vacuum
wavelength
共Å兲
62.88
62.88
129.93
Observed
wave
number
(103 cm⫺1 )
1590.3
1590.3
769.65
Intensity
and
comment
*
*
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
0.03
0.03
0.03
91EKB
91EKB
88SEE
Classification
Configuration
2
3s
3s3p
3s 2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
S
P
1
S
3 ⴰ
J
0
0
0
Configuration
–
–
–
3s3p
3p 2
3s3p
Term
1 ⴰ
P
P
3 ⴰ
P
3
SPECTRAL LINES OF XENON
4.44. Xe XLIV
Na isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 3s 2 S1/2
Ionization energy 26 889 000⫾2 000 cm⫺1 共3 333.8⫾0.2
eV兲 关88THE兴
Analyses of the spectrum of 43 times ionized xenon,
Xe XLIV, using fitted energy levels across the Na isoelectronic sequence, were published by Seely et al. 关91SEE兴 and
Matsushima et al. 关91MAT兴. We use the energy levels determined by Seely et al. 关91SEE兴 for the levels in the Xe XLIV
energy level table with values below 13.5⫻106 cm⫺1 and
those of Matsushima et al. 关91MAT兴 for higher values. The
absence of decimal points for values in the energy level table
indicates that the Seely et al. 关91SEE兴 values have uncertainties of 33 cm⫺1 for the 3p 1/2 , 110 cm⫺1 for the 3p 3/2 , 200
cm⫺1 for the 3d, 5000 cm⫺1 for the 4s, and 500 cm⫺1 for
the 4p and 4d levels. The uncertainties for the Matsushima
et al. 关91MAT兴 values are 1200 cm⫺1 for the n⫽4 levels,
2400 cm⫺1 for the n⫽5 levels, and 4400 cm⫺1 for the n
⫽6 levels.
Träbert et al. 关95TRA兴 reported four Xe XLIV lines. They
used beam foil spectroscopy for their measurements. The
quoted uncertainty of their wavelength measurements is 0.5
Å except for 1.0 Å for the 59.1 Å line.
Seely and Wagner 关90SEE兴, while reporting no measurements on Xe XLIV, did refer to unpublished Xe XLIV data
taken at the PLT tokamak for two lines. We use these lines.
The estimated uncertainty of the wavelength measurements
is 0.03 Å.
Where duplicate lines exist, the priority order used for
selection for the Xe XLIV line table was 关90SEE兴 then
关95TRA兴.
All candidate lines for the line table are passed through a
program to determine if they correspond to a transition between the known Xe XLIV levels. Only classifiable lines are
included in our compilation.
Conturie et al. 关81CON兴 reported seven dielectronic satellite lines. They used laser imploded targets as their light
source. The quoted uncertainty of their wavelength measurements is 0.003 Å. Since we do not have energy values for the
913
levels involved, we report these lines in a separate Xe XLIV
dielectronic satellite lines table. In this table the intensity
code ‘‘w’’ indicates a wide line.
The ionization energy was determined by Theodosiou and
Curtis 关88THE兴 by means of semiempirical calculations.
References
81CON
Y. Conturie, B. Yaakobi, U. Feldman, G. A. Doschek, and R. D. Cowan, J. Opt. Soc. Am. 71,
1309 共1981兲.
88THE
C. E. Theodosiou and L. J. Curtis, Phys. Rev. A
38, 4435 共1988兲.
90SEE
J. F. Seely and R. A. Wagner, Phys. Rev. A 41,
5246 共1990兲.
91MAT
I. Matsushima, J.-P. Geindre, C. ChenaisPopovics, J.-C. Gauthier, and J.-F. Wyart, Phys.
Scr. 43, 33 共1991兲.
91SEE
J. F. Seely, C. M. Brown, U. Feldman, J. O.
Ekberg, C. J. Keane, B. J. MacGowan, D. R.
Kania, and W. E. Behring, At. Data Nucl. Data
Tables 47, 1 共1991兲.
95TRA
E. Träbert, J. Doerfert, J. Granzow, R. Büttner,
U. Staude, K.-H. Schartner, P. Rymuza, L.
Engström, and R. Hutton, Z. Phys. D 32, 295
共1995兲.
Xe XLIV dielectronic satellite lines 2p 6 3d – (2p 5 3s3d,2p 5 3d 2 )
Observed vacuum
wavelength 共Å兲
Intensity and comment
2.752
2.739
2.736
2.732
2.578
2.567
2.564
5w
3
4
4
2w
5
5
Energy levels of Xe XLIV
Energy level
共cm⫺1兲
0.
Parity
Configuration
0
3s
Term
2
S
2 ⴰ
P
2 ⴰ
J
Source
of level
1/2
91SEE
1/2
3/2
91SEE
91SEE
806 985
1 501 276
1
1
3p
3p
2 523 660
2 679 380
0
0
3d
3d
2
D
2
3/2
5/2
91SEE
91SEE
12 263 000
0
4s
2
1/2
91SEE
12 596 000
12 880 000
1
1
4p
4p
1/2
3/2
91SEE
91SEE
13 260 300
13 331 400
0
0
4d
4d
3/2
5/2
91SEE
91SEE
P
D
S
2 ⴰ
P
2 ⴰ
P
2
D
2
D
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
914
E. B. SALOMAN
Energy levels of Xe XLIV—Continued
Energy level
共cm⫺1兲
Parity
Configuration
13 535 960
13 565 090
1
1
4f
4f
17 707 860
0
5s
Term
2 ⴰ
F
2 ⴰ
F
2
S
2 ⴰ
P
2 ⴰ
J
Source
of level
5/2
7/2
91MAT
91MAT
1/2
91MAT
1/2
3/2
91MAT
91MAT
3/2
5/2
91MAT
91MAT
5/2
7/2
91MAT
91MAT
17 876 490
18 018 300
1
1
5p
5p
18 207 450
18 242 330
0
0
5d
5d
18 342 070
18 356 850
1
1
5f
5f
18 371 490
18 380 270
0
0
5g
5g
2
G
2
7/2
9/2
91MAT
91MAT
20 588 070
0
6s
2
1/2
91MAT
1/2
3/2
91MAT
91MAT
3/2
5/2
91MAT
91MAT
5/2
7/2
91MAT
91MAT
20 684 390
20 765 470
1
1
6p
6p
20 872 670
20 892 990
0
0
6d
6d
20 951 570
20 960 220
1
1
6f
6f
P
2
D
2
D
2 ⴰ
F
2 ⴰ
F
G
S
2 ⴰ
P
2 ⴰ
P
2
D
2
D
2 ⴰ
F
2 ⴰ
F
Spectral lines of Xe XLIV
Observed
vacuum
wavelength
共Å兲
59.1
66.58
84.8
123.92
Observed
wave
number
(103 cm⫺1 )
Intensity
and
comment
1690
1502.0
1179.
806.97
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
3d
3p
3d
3p
2
D
2 ⴰ
P
2
D
2 ⴰ
3/2
3/2
5/2
1/2
1.0
0.03
0.5
0.03
Classification
Configuration
3p
3s
3p
3s
Term
2 ⴰ
P
2
S
2 ⴰ
P
2
S
4.45. Xe XLV
Ne isoelectronic sequence
Ground state 1s 2 2s 2 2p 6 1 S0
Ionization energy 58 270 000 cm⫺1 共7 224 eV兲 关70CAR兴
The energy levels we report in the Xe XLV level table for
44 times ionized xenon, Xe XLV, were calculated from the
classified lines reported below. The absence of decimal
points for values in the energy level table indicates their
large uncertainties. Most have uncertainties that range from
1⫻103 – 9⫻103 cm⫺1 . Those values with larger uncertainties 共in units of 103 cm⫺1 ) are 35 367, 36 307, 36 360,
36 443, 36 480, 37 376, and 39 005 which have 共in units of
103 cm⫺1 ) 10, 21, 16, 12, 16, 17, and 15 uncertainties, respectively.
Werner et al. 关01WER兴 reported 21 Xe XLV lines. They
used an EBIT as their light source. The estimated uncertainty
of the wavelength measurements is 0.0005–0.0012 Å.
Träbert et al. 关95TRA兴 reported two Xe XLV lines. They
used beam foil spectroscopy for their measurements. The
quoted uncertainty of their wavelength measurements is 0.5
Å.
Aglitskii et al. 关89AGL兴 reported seven electric dipole XeJ. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
J
1/2
1/2
3/2
1/2
–
–
–
–
P
Source
of
line
95TRA
90SEE
95TRA
90SEE
XLV lines. They used a low-inductance vacuum spark as
their light source. The estimated uncertainty of the wavelength measurements is 0.0016 Å.
Beiersdorfer et al. 关88BEI兴 reported 12 Xe XLV lines of
which seven were electric dipole, four were electric quadrupole, and one was magnetic quadrupole. They used a tokamak as their light source. The estimated uncertainty of the
wavelength measurements is 0.0001 Å.
Conturie et al. 关81CON兴 reported five lines. They used
laser imploded targets as their light source. The quoted uncertainty of their wavelength measurements is 0.003 Å.
Where duplicate lines exist, the priority order used for
selection for the Xe XLV line table was 关88BEI兴, 关01WER兴,
关89AGL兴, 关81CON兴, then 关95TRA兴. No 关81CON兴 lines appear in the final list.
All candidate electric dipole lines for the line table are
passed through a program to determine if they correspond to
a transition between the known Xe XLV levels. The E2, M1,
and M2 lines are checked by hand. Only classifiable lines are
included in our compilation.
The intensity codes given in the Xe XLV line table are
specified below:
SPECTRAL LINES OF XENON
Symbol
Definition
E2
electric quadrupole transition
M1
magnetic dipole transition
M2
magnetic quadrupole transition
Asada et al. 关97ASA兴 and DeWitt et al. 关92DEW兴 report
several dielectronic recombination lines. They used EBIT
sources. Their energy uncertainties are estimated to be 0.03
keV. Since we do not have energy levels for these lines, we
quote them in a separate Xe XLV dielectronic recombination
series table. In this table ‘‘Process’’ is auger notation for the
dielectronic recombination process. XY Z signifies the process in which the ion captures a free electron causing an
electron in the X shell of the ion to be excited to the Y shell
while the captured electron is held in the Z shell.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
915
Xe XLV Dielectronic recombination series 共taken from 97 ASA兲
Process
97ASA
resonant energy
共keV兲
92DEW
resonant energy
共keV兲
LMN(3d4p)
LMN(3d4d)
LMN(3d4 f )
LMO
LMP
LMQ
LMR
LNM
LNN
LNO
LNP
LNQ
2.80
2.84
2.93
3.15
3.47
3.82
3.99
2.96
4.04
4.50
4.78
4.93
2.77
2.86
2.90
3.18
3.48
3.81
4.01
Energy levels of Xe XLV
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81CON
Y. Conturie, B. Yaakobi, U. Feldman, G. A.
Doschek, and R. D. Cowan, J. Opt. Soc. Am.
71, 1309 共1981兲.
88BEI
P. Beiersdorfer, S. von Goeler, M. Bitter, E.
Hinnov, R. Bell, S. Bernabei, J. Felt, K. W. Hill,
R. Hulse, J. Stevens, S. Suckewer, J.
Timberlake, A. Wouters, M. H. Chen, J. H.
Scofield, D. D. Dietrich, M. Gerassimenko, E.
Silver, R. S. Walling, and P. L. Hagelstein,
Phys. Rev. A 37, 4153 共1988兲.
89AGL
E. V. Aglitskii, E. P. Ivanova, S. A. Panin, U. I.
Safronova, S. I. Ulityn, L. A. Vainshtein, and
J.-F. Wyart, Phys. Scr. 40, 601 共1989兲.
92DEW
D. R. DeWitt, D. Schneider, M. H. Chen, M. W.
Clark, J. W. McDonald, and M. B. Schneider,
Phys. Rev. Lett. 68, 1694 共1992兲.
95TRA
E. Träbert, J. Doerfert, J. Granzow, R. Büttner,
U. Staude, K.-H. Schartner, P. Rymuza, L.
Engström, and R. Hutton, Z. Phys. D 32, 295
共1995兲.
97ASA
J. Asada, F. J. Currell, T. Fukami, T. Hirayama,
K. Motohashi, N. Nakamura, E. Nojikawa, S.
Ohtani, K. Okazaki M. Sakurai, H. Shiraishi, S.
Tsurubuchi, and H. Watanabe, Phys. Scr. T73,
90 共1997兲.
01WER
T. Werner, G. Zschornack, F. Großmann, V. P.
Ovsyannikov, and E. Ullmann, Phys. Scr. T92,
241 共2001兲.
Energy level
共cm⫺1兲
J
Source
of level
S
0
88BEI
2p 53/23s 1/2
2p 53/23s 1/2
2p 51/23s 1/2
(3/2,1/2) ⴰ
(3/2,1/2) ⴰ
(1/2,1/2) ⴰ
2
1
1
88BEI
88BEI
88BEI
0
0
0
0
0
0
0
0
2p 53/23p 1/2
2p 53/23p 1/2
2p 53/23p 3/2
2p 53/23p 3/2
2p 53/23p 3/2
2p 51/23p 1/2
2p 51/23p 3/2
2p 51/23p 3/2
共3/2,1/2兲
共3/2,1/2兲
共3/2,3/2兲
共3/2,3/2兲
共3/2,3/2兲
共1/2,1/2兲
共1/2,3/2兲
共1/2,3/2兲
1
2
3
1
2
1
1
2
01WER
88BEI
95TRA
01WER
88BEI
01WER
01WER
88BEI
36 307 000
36 360 000
36 443 000
36 480 000
36 761 000
39 005 000
39 177 000
1
1
1
1
1
1
1
2p 53/23d 3/2
2p 53/23d 3/2
2p 53/23d 5/2
2p 53/23d 5/2
2p 53/23d 5/2
2p 51/23d 3/2
2p 51/23d 3/2
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(3/2,5/2) ⴰ
(1/2,3/2) ⴰ
(1/2,3/2) ⴰ
1
2
4
2
1
2
1
89AGL
01WER
95TRA
01WER
88BEI
01WER
88BEI
39 917 000
40 603 000
40 649 000
1
1
1
2s 1/23p 1/2
2s 1/23p 3/2
2s 1/23p 3/2
(1/2,1/2) ⴰ
(1/2,3/2) ⴰ
(1/2,3/2) ⴰ
1
2
1
88BEI
01WER
88BEI
41 506 000
41 545 000
41 769 000
0
0
0
2s 1/23d 3/2
2s 1/23d 3/2
2s 1/23d 5/2
共1/2,3/2兲
共1/2,3/2兲
共1/2,5/2兲
1
2
2
01WER
01WER
88BEI
47 717 000
1
2p 53/24d 5/2
(3/2,5/2) ⴰ
1
88BEI
Parity
Configuration
0
0
2p 6
33 957 000
34 001 000
36 646 000
1
1
1
34 688 000
34 723 000
35 367 000
35 387 000
35 479 000
37 376 000
38 069 000
38 137 000
Term
1
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
916
E. B. SALOMAN
Spectral lines of Xe XLV
Observed
vacuum
wavelength
共Å兲
2.0957
2.3941
2.4070
2.4093
2.4601
2.4629
2.5052
2.5525
2.5638
2.6221
2.6268
2.6755
2.7203
2.7288
2.7412
2.7503
2.7543
2.8186
2.8259
2.8799
2.8828
2.9411
2.9449
70.9
93.0
Observed
wave
number
(103 cm⫺1 )
47 717.
41 769.
41 545.
41 506.
40 649.
40 603.
39 917.
39 177.
39 005.
38 137.
38 069.
37 376.
36 761.
36 646.
36 480.
36 360.
36 310
35 479.
35 387.
34 723.
34 688.
34 001.
33 957.
1 410.
1 075.
Intensity
and
comment
Configuration
6
E2
E2
M1
M2
M2
E2
M1
M1
M2
M2
E2
M1
E2
M1
M2
2p
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 6
2p 53/23s 1/2
2p 53/23p 3/2
Term
1
S
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
1
S
(3/2,1/2) ⴰ
共3/2,3/2兲
1
4.46. Xe XLVI
F isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2p 5 2 P3/2
Ionization energy 60 420 000 cm⫺1 共7 491 eV兲 关70CAR兴
The ground state of Xe XLVI was determined by means of
a calculation using the Cowan codes 关81COW兴. Conturie
et al. 关81CON兴 reported six features, all but one of which are
a blend of possible lines. They used laser imploded targets as
their light source. The quoted uncertainty of their wavelength
measurements is 0.003 Å. Werner et al. 关01WER兴 reported
11 Xe XLVI lines. They used an EBIT as their light source.
The estimated uncertainty of their wavelength measurements
is 0.0006 Å. The one distinct line of Conturie et al. 关81CON兴
agrees with a wavelength of Werner et al. 关01WER兴 but they
disagree on the partial classifications. The wavelengths reported by Werner et al. 关01WER兴 are 共in Å兲 2.4757, 2.4972,
2.5088, 2.6515, 2.6572, 2.6686, 2.6778, 2.8437, 2.8660,
2.8707, and 2.8820.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
2
2
1
1
2
1
1
2
2
1
1
1
1
2
2
1
2
1
2
1
1
2
3
4
.0001
.0001
.0005
.0005
.0001
.0005
.00015
.0001
.0010
.00025
.0006
.0012
.0001
.0001
.0012
.0012
.0016
.0001
.0006
.0001
.0007
.0001
.0001
0.5
0.5
88BEI
88BEI
01WER
01WER
88BEI
01WER
88BEI
88BEI
01WER
88BEI
01WER
01WER
88BEI
88BEI
01WER
01WER
89AGL
88BEI
01WER
88BEI
01WER
88BEI
88BEI
95TRA
95TRA
Classification
J
Configuration
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2
3
2p 53/24d 5/2
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
2s 1/23d 5/2
2s 1/23d 3/2
2s 1/23d 3/2
2s 1/23p 3/2
2s 1/23p 3/2
2s 1/23p 1/2
2p 51/23d 3/2
2p 51/23d 3/2
2p 51/23p 3/2
2p 51/23p 3/2
2p 51/23p 1/2
2p 53/23d 5/2
2p 51/23s 1/2
2p 53/23d 5/2
2p 53/23d 3/2
2p 53/23d 3/2
2p 53/23p 3/2
2p 53/23p 3/2
2p 53/23p 1/2
2p 53/23p 1/2
2p 53/23s 1/2
2p 53/23s 1/2
2p 53/23p 3/2
2p 53/23d 5/2
Term
ⴰ
(3/2,5/2)
共1/2,5/2兲
共1/2,3/2兲
共1/2,3/2兲
(1/2,3/2) ⴰ
(1/2,3/2) ⴰ
(1/2,1/2) ⴰ
(1/2,3/2) ⴰ
(1/2,3/2) ⴰ
共1/2,3/2兲
共1/2,3/2兲
共1/2,1/2兲
(3/2,5/2) ⴰ
(1/2,1/2) ⴰ
(3/2,5/2) ⴰ
(3/2,3/2) ⴰ
(3/2,3/2) ⴰ
共3/2,3/2兲
共3/2,3/2兲
共3/2,1/2兲
共3/2,1/2兲
(3/2,1/2) ⴰ
(3/2,1/2) ⴰ
共3/2,3/2兲
(3/2,5/2) ⴰ
81CON
Y. Conturie, B. Yaakobi, U. Feldman, G. A.
Doschek, and R. D. Cowan, J. Opt. Soc. Am.
71, 1309 共1981兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
T. Werner, G. Zschornack, F. Großmann, V. P.
Ovsyannikov, and E. Ullmann, Phys. Scr. T92,
241 共2001兲.
01WER
4.47. Xe XLVII
O isoelectronic sequence
Ground state 1s 2 2s 2 2 p 4 3 P2
Ionization energy 62 570 000 cm⫺1 共7 758 eV兲 关70CAR兴
The ground state of Xe XLVII was determined by means of
a calculation using the Cowan codes 关81COW兴. Conturie
et al. 关81CON兴 reported two features, at 2.607 and 2.620 Å,
which are blends of possible lines. They used laser imploded
targets as their light source. The quoted uncertainty of their
wavelength measurements is 0.003 Å.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
SPECTRAL LINES OF XENON
81CON
81COW
Y. Conturie, B. Yaakobi, U. Feldman, G. A.
Doschek, and R. D. Cowan, J. Opt. Soc. Am.
71, 1309 共1981兲.
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
4.48. Xe XLVIII
N isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2p 3 4 S3/2
Ionization energy 64 720 000 cm⫺1 共8 024 eV兲 关70CAR兴
The ground state of Xe XLVIII was determined by means of
a calculation using the Cowan codes 关81COW兴. We note that
the ground state is strongly mixed and the 4 Sⴰ is not even the
largest contributor to the eigenvector. No wavelengths or energy levels have been reported for this ion except for a few
Rydberg transitions between 70 and 120 Å from upper levels
with n⫽8 – 11 observed by Büttner et al. 关92BUT兴 in beam–
foil studies.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
92BUT
R. Büttner, B. Kraus, K.-H. Schartner, F.
Folkmann, P. H. Mokler, and G. Möller, Z.
Phys. D 22, 693 共1992兲.
4.49. Xe XLIX
C isoelectronic sequence
Ground state 1s 2 2s 2 2p 2 3 P0
Ionization energy 69 500 000 cm⫺1 共8 617 eV兲 关70CAR兴
The ground state of Xe XLIX was determined by means of
a calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion except for a few Rydberg transitions between 67 and 123 Å
from upper levels with n⫽8 – 12 observed by Büttner et al.
关92BUT兴 in beam–foil studies.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
92BUT
R. Büttner, B. Kraus, K.-H. Schartner, F.
Folkmann, P. H. Mokler, and G. Möller, Z.
Phys. D 22, 693 共1992兲.
917
4.50. Xe L
B isoelectronic sequence
ⴰ
Ground state 1s 2 2s 2 2 p 2 P1/2
Ionization energy 71 780 000 cm⫺1 共8 899 eV兲 关70CAR兴
The ground state of Xe L was determined by means of a
calculation using the Cowan codes 关81COW兴. No wavelengths or energy levels have been reported for this ion except for a few Rydberg transitions between 63 and 122 Å
from upper levels with n⫽7 – 12 observed by Büttner et al.
关92BUT兴 in beam–foil studies.
The ionization energy was determined by Carlson et al.
关70CAR兴 by means of a calculation based on a simple
spherical shell solution for neutral atoms.
References
70CAR
T. A. Carlson, C. W. Nestor, Jr., N. Wasserman,
and J. D. McDowell, At. Data 2, 63 共1970兲.
81COW
R. D. Cowan, The Theory of Atomic Structure
and Spectra 共University of California Press,
Berkeley, 1981兲.
92BUT
R. Büttner, B. Kraus, K.-H. Schartner, F.
Folkmann, P. H. Mokler, and G. Möller, Z.
Phys. D 22, 693 共1992兲.
4.51. Xe LI
Be isoelectronic sequence
Ground state 1s 2 2s 2 1 S0
Ionization energy 77 483 400 cm⫺1 共9 606.72 eV兲
关93CUR兴
Theoretical calculations of the n⫽2 and n⫽3 energy levels of 50 times ionized xenon, Xe LI, were carried out by
Safronova et al. 关96SAF兴, 关97SAF兴. Where possible, levels
were determined directly from the observed classified lines
reported below. However, three calculated n⫽2 energy levels from Safronova et al. 关96SAF兴 were needed to include
the known transitions. These energy levels are indicated with
square brackets in the Xe LI energy level table. A number of
the n⫽3 levels were determined from these using the classified transitions of Simionovici et al. 关90SIM兴. Safronova
et al. 关97SAF兴 indicate that there is a great deal of ‘‘arbitrariness’’ in the identification of the n⫽3 to n⫽2 transitions.
However, they used the identifications suggested by Simionovici et al. 关90SIM兴, as do we 共except for correcting a misprint by changing a 3d 1/2 designation to 3p 1/2). We use the
relativistic notation of Safronova et al. 关97SAF兴 in the tables
to designate the levels above the ground state. In this notation p 1/2 is denoted as p * and p 3/2 is denoted as p while d 3/2
is denoted as d * and d 5/2 is denoted as d. The uncertainties
of the energy levels derived from observed lines are mostly
between 6000 and 9000 cm⫺1. The uncertainties of the first
two excited levels in the level table are 2000 and 10 000
cm⫺1, respectively, and that of the 2p * 3d * J⫽1 level is
13 000 cm⫺1.
Büttner et al. 关92BUT兴 reported the one Xe LI resonance
line. They used beam foil spectroscopy for their measurements. The quoted uncertainty of their wavelength measureJ. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
918
E. B. SALOMAN
by means of a semiempirical extrapolation along the Be isoelectronic sequence.
ment is 0.2 Å. We use their measured value of this line in the
Xe LI line table. A few Rydberg transitions between 61 and
150 Å from upper levels with n⫽7 – 12 were also reported.
Möller et al. 关91MOL兴 reported the same Xe LI resonance
line. They also used beam foil spectroscopy for their measurements. The quoted uncertainty of their wavelength measurement is 0.4 Å.
Simionovici et al. 关90SIM兴 reported ten Xe LI lines, one of
which was an unclassified blend. It was not included in the
table. They used beam foil spectroscopy for their measurements. The quoted uncertainty of their wavelength measurements is mostly 0.0004 Å.
Martin et al. 关88MAR兴 reported one Xe LI line. They also
used beam foil spectroscopy for their measurements. The
quoted uncertainty of their wavelength measurement is 0.5
Å.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
Xe LI levels. Only classifiable lines are included in our compilation. The code E2 in the Xe LI line table indicates that the
line results from an electric quadrupole transition.
The ionization energy was determined by Curtis 关93CUR兴
References
88MAR
S. Martin, J. P. Buchet, M. C. Buchet-Poulizac,
A. Denis, J. Désesquelles, M. Druetta, J. P.
Grandin, D. Hennecart, X. Husson, and D.
Lecler, Nucl. Instrum. Methods B 31, 79
共1988兲.
A. Simionovici, D. D. Dietrich, D. Leneman,
and J. P. Grandin, Phys. Rev. A 41, 5250 共1990兲.
G. Möller, E. Träbert, P. H. Heckmann, P. H.
Mokler, and A. E. Livingston, Z. Phys. D 18,
223 共1991兲.
R. Büttner, B. Kraus, K.-H. Schartner, F.
Folkmann, P. H. Mokler, and G. Möller, Z.
Phys. D 22, 693 共1992兲.
L. J. Curtis, Phys. Scr. 48, 559 共1993兲.
M. S. Safronova, W. R. Johnson, and U. I.
Safronova, Phys. Rev. A 53, 4036 共1996兲.
M. S. Safronova, W. R. Johnson, and U. I.
Safronova, J. Phys. B 30, 2375 共1997兲.
90SIM
91MOL
92BUT
93CUR
96SAF
97SAF
Energy levels of Xe LI
Energy level
共cm⫺1兲
J
Source
of level
S
0
92BUT
°
°
1
2
92BUT
96SAF
2p * 2p *
2p * 2p
2p * 2p
0
1
2
88MAR
96SAF
96SAF
0
0
2s3d *
2s3d
2
3
90SIM
90SIM
46 226 000
46 425 000
49 090 000
49 147 000
49 290 000
1
1
1
1
1
2p * 3d *
2p * 3d
2p3d *
2p3d *
2p3d
°
°
°
°
°
1
3
2
3
4
90SIM
90SIM
90SIM
90SIM
90SIM
47 745 000
1
2p3s
°
1
90SIM
48 080 000
0
2p3p *
1
90SIM
Parity
Configuration
0
2s 2
1 027 000
关3 785 850兴
1
1
2s2p *
2s2p
2 433 000
关5 147 080兴
关5 271 330兴
0
0
0
45 137 000
45 355 000
0.0
Term
1
Spectral lines of Xe LI
Observed
vacuum
wavelength
共Å兲
Observed
wave
number
(103 cm⫺1 )
2.1976
2.2576
2.2671
2.2757
2.2792
2.2835
2.3544
2.4056
2.4299
71.1
97.4
45 504.
44 295.
44 109.
43 943.
43 875.
43 792.
42 474.
41 570.
41 154.
1 406.
1 027.
Intensity
and
comment
E2
Configuration
Term
J
Uncertainty of
observed
wavelength
共Å兲
2p3d
2p3p *
2s3d *
2p3d *
2p3d *
2p * 3d *
2p3s
2s3d
2p * 3d
2p * 2p *
2s2p *
°
4
1
2
2
3
1
1
3
3
0
1
0.0004
0.0004
0.0004
0.0004
0.0004
0.0004
0.0005
0.0004
0.0004
0.5
0.2
Classification
Configuration
Term
J
2s2p
2s2p
2s2p *
2p * 2p
2p * 2p
2p * 2p *
2p * 2p
2s2p
2p * 2p
2s2p *
2s 2
°
°
°
2
2
1
1
2
0
2
2
2
1
0
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
°
°
1
S
–
–
–
–
–
–
–
–
–
–
–
°
°
°
°
°
°
Source
of
line
90SIM
90SIM
90SIM
90SIM
90SIM
90SIM
90SIM
90SIM
90SIM
88MAR
92BUT
SPECTRAL LINES OF XENON
4.52. Xe LII
919
code ‘‘b’’ in the Xe LII line table indicates that the observed
line is a blend.
The ionization energy was determined by Theodosiou
et al. 关91THE兴 by means of theoretical calculation and semiempirical parameterization along the Li isoelectronic sequence.
Li isoelectronic sequence
Ground state 1s 2 2s 2 S1/2
Ionization energy 79 145 152 cm⫺1 共9 812.747 2 eV兲
关91THE兴
The seven energy levels we report for 51 times ionized
xenon, Xe LII, were calculated from the classified lines reported below 共except that we did not use the one line reported as a blend兲. The uncertainties of the 0.97⫻106 , 3.97
⫻106 , and 44.5⫻106 cm⫺1 levels are 70, 5⫻103 , and 7
⫻103 cm⫺1 , respectively. The uncertainties of the three
higher energy levels are 8⫻103 cm⫺1 .
Feili et al. 关00FEI兴 reported one Xe LII resonance line.
They also reported three other lines 共at 299.511⫾.028,
303.736⫾.020, and 317.852⫾.030 Å兲 which they could not
classify and thus are not in the Xe LII line table. They used
beam foil spectroscopy for their measurements. The quoted
uncertainty of their wavelength measurement is 0.007 Å.
Büttner et al. 关92BUT兴 reported the two Xe LII resonance
lines. They also used beam foil spectroscopy for their measurements. The quoted uncertainties of their wavelength
measurements are 0.2 Å for the 103 Å line and 0.05 Å for the
25 Å line. A few Rydberg transitions between 70 and 143 Å
from upper levels with n⫽7 – 12 were also reported.
Simionovici et al. 关90SIM兴 reported six Xe LII lines of
which one was a blend. This included one resonance line.
They also used beam foil spectroscopy for their measurements. The quoted uncertainty of their wavelength measurements is about 0.0004 Å.
Martin et al. 关89MAR兴 reported two Xe LII resonance
lines. They also used beam foil spectroscopy for their measurements. The quoted uncertainties of their wavelength
measurements are 0.08 Å for the 103 Å line and 0.03 Å for
the 25 Å line.
The priority for inclusion of duplicate lines in the Xe LII
line table was 关00FEI兴, 关90SIM兴, 关89MAR兴, then 关92BUT兴.
As a result no 关92BUT兴 lines are in the table. All candidate
lines are passed through a program to determine if they correspond to a transition between the known Xe LII levels.
Only classifiable lines are included in our compilation. The
References
89MAR
S. Martin, J. P. Buchet, M. C. Buchet-Poulizac,
A. Denis, J. Désesquelles, M. Druetta, J. P.
Grandin, D. Hennecart, X. Husson, and D.
Lecler, Europhys. Lett. 10, 645 共1989兲.
90SIM
A. Simionovici, D. D. Dietrich, D. Leneman,
and J. P. Grandin, Phys. Rev. A 41, 5250 共1990兲.
91THE
C. E. Theodosiou, L. J. Curtis, and M.
El-Mekki, Phys. Rev. A 44, 7144 共1991兲.
92BUT
R. Büttner, B. Kraus, K.-H. Schartner, F.
Folkmann, P. H. Mokler, and G. Möller, Z.
Phys. D 22, 693 共1992兲.
00FEI
D. Feili, Ph. Bosselmann, K.-H. Schartner, F.
Folkmann, A. E. Livingston, E. Träbert, X. Ma,
and P. H. Mokler, Phys. Rev. A 62, 022501
共2000兲.
Energy levels of Xe LII
Energy level
共cm⫺1兲
Parity
Configuration
0
2s
0.
966 420
3 971 000
1
1
2p
2p
44 497 000
0
3s
45 664 000
1
45 744 000
46 012 000
2
S
J
Source
of level
1/2
00FEI
2 ⴰ
1/2
3/2
00FEI
89MAR
2
1/2
90SIM
3/2
90SIM
3/2
5/2
90SIM
90SIM
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3/2
3/2
1/2
5/2
3/2
1/2
3/2
1/2
0.00039
0.00038
0.00039
0.00036
0.00036
0.00035
0.03
0.007
90SIM
90SIM
90SIM
90SIM
90SIM
90SIM
89MAR
00FEI
2 ⴰ
P
P
S
2 ⴰ
3p
0
0
Term
P
2
3d
3d
2
D
D
Spectral lines of Xe LII
Observed
vacuum
wavelength
共Å兲
2.189 91
2.232 87
2.297 32
2.378 64
2.393 91
2.467 47
25.18
103.475
Observed
wave
number
(103 cm⫺1 )
45 664.
44 785.
43 529.
42 041.
41 773.
40 527.
3 971.
966.42
Intensity
and
comment
b
Classification
Configuration
2s
2p
2p
2p
2p
2p
2s
2s
Term
2
S
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2 ⴰ
P
2
S
2
S
2 ⴰ
J
1/2
1/2
1/2
3/2
3/2
3/2
1/2
1/2
Configuration
–
–
–
–
–
–
–
–
3p
3d
3s
3d
3d
3s
2p
2p
Term
2 ⴰ
P
D
2
S
2
D
2
D
2
S
2 ⴰ
P
2 ⴰ
P
2
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
920
E. B. SALOMAN
4.53. Xe LIII
Xe LIII levels. Only classifiable lines are included in this
compilation. The code ‘‘M1’’ in the Xe LIII line table indicates that the observed line is the result of a magnetic dipole
transition.
The ionization energy was determined by Cheng et al.
关94CHE兴 by means of a theoretical calculation.
He isoelectronic sequence
Ground state 1s 2 1 S0
Ionization energy 324 821 000 cm⫺1 共40 272.7 eV兲
关94CHE兴
Seven of the eight energy levels we report for 52 times
ionized xenon, Xe LIII, in the Xe LIII level table were obtained directly from the relativistic all-order many-body calculations of Plante et al. 关94PLA兴. 共We did not use the calculation of Cheng et al. 关94CHE兴 because it did not report
values for as many levels.兲 The 1s3d 3 D3 level was determined by adding to the Plante et al. 关94PLA兴 value for the
1s2 p 3 P2 level the MCDF calculated value of Simionovici
et al. 关90SIM兴 for the difference between the two levels. The
uncertainty in the theoretical values is probably of the order
of a few hundred cm⫺1.
Widmann et al. 关 97WIDa兴 reported one Xe LIII resonance
line and Widmann et al. 关 97WIDb兴 reported two more. 共In
both papers the authors only provided a plot of their experimental data which we measured to obtain the wavelength.兲
They used an EBIT for their measurements. The estimated
uncertainty of their wavelength measurement is 0.000 005 Å.
Simionovici et al. 关90SIM兴 reported one Xe LIII line. They
used beam foil spectroscopy for their measurements. The
quoted uncertainty of their wavelength measurements is
about 0.000 4 Å.
Martin et al. 关89MAR兴 reported one Xe LIII line. They also
used beam foil spectroscopy for their measurements. The
quoted uncertainty of their wavelength measurement is 0.1
Å.
Briand et al. 关89BRI兴 reported one of the Xe LIII resonance
lines observed by Widmann et al. 关 97WIDb兴 and the one
observed by Widmann et al. 关 97WIDa兴 . They used a beam
foil technique to almost totally strip the Xe and then used a
second foil to add an electron to make Xe LIII for their measurements. The quoted uncertainty of their wavelength measurements is 0.000 05 Å.
The priority for inclusion of duplicate lines in the Xe LIII
line table was 关 97WIDa兴 , 关 97WIDb兴 , 关89BRI兴, 关90SIM兴,
then 关89MAR兴. As a result no 关89BRI兴 lines are in the table.
All candidate lines are passed through a program to determine if they correspond to a transition between the known
References
89BRI
J. P. Briand, P. Indelicato, A. Simionovici, V.
San Vicente, D. Liesen, and D. Dietrich, Europhys. Lett. 9, 225 共1989兲.
S. Martin, J. P. Buchet, M. C. Buchet-Poulizac,
A. Denis, J. Désesquelles, M. Druetta, J. P.
Grandin, D. Hennecart, X. Husson, and D.
Lecler, Europhys. Lett. 10, 645 共1989兲.
A. Simionovici, D. D. Dietrich, D. Leneman,
and J. P. Grandin, Phys. Rev. A 41, 5250 共1990兲.
K. T. Cheng, M. H. Chen, W. R. Johnson, and J.
Sapirstein, Phys. Rev. A 50, 247 共1994兲.
D. R. Plante, W. R. Johnson, and J. Sapirstein,
Phys. Rev. A 49, 3519 共1994兲.
K. Widmann, P. Beiersdorfer, G. V. Brown, J. R.
Crespo López Urrutia, V. Decaux, and D. W.
Savin, Rev. Sci. Instrum. 68, 1087 共1997兲.
K. Widmann, P. Beiersdorfer, J. R. Crespo
López-Urrutia, and S. R. Elliott, Hyperfine
Interact. 108, 73 共1997兲.
89MAR
90SIM
94CHE
94PLA
97WIDa
97WIDb
Energy levels of Xe LIII
Energy level
共cm⫺1兲
J
Source
of level
S
0
94PLA
S
S
1
0
94PLA
94PLA
P
P
3 ⴰ
P
1 ⴰ
P
1
0
2
1
94PLA
94PLA
94PLA
94PLA
3
3
90SIM
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
1
1
1
3
2
0.000 005
0.000 005
0.000 005
0.000 4
0.10
97WIDa
97WIDb
97WIDb
90SIM
89MAR
Parity
Configuration
0
1s 2
1
3
0.
关243 004 900兴
关243 691 200兴
0
0
1s2s
1s2s
关243 626 600兴
关243 674 700兴
关246 756 600兴
关247 044 900兴
1
1
1
1
1s2p
1s2p
1s2p
1s2p
关290 413 200兴
0
1s3d
Term
1
3 ⴰ
3 ⴰ
D
Spectral lines of Xe LIII
Observed
vacuum
wavelength
共Å兲
0.404 774
0.410 457
0.411 578
2.2910
26.66
Observed
wave
number
(103 cm⫺1 )
247 051.
243 631.
242 967.
43 649.
3 751.
Intensity
and
comment
Classification
Configuration
2
M1
1s
1s 2
1s 2
1s2p
1s2s
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004
Term
1
S
S
1
S
3 ⴰ
P
3
S
1
J
0
0
0
2
1
Configuration
–
–
–
–
–
1s2p
1s2p
1s2s
1s3d
1s2p
Term
1 ⴰ
P
P
3
S
3
D
3 ⴰ
P
3 ⴰ
SPECTRAL LINES OF XENON
4.54. Xe LIV
921
lines in the Xe LIV line table. They used a beam–foil technique to totally strip the Xe and then used a second foil to
add an electron to make Xe LIV for their measurements. The
quoted uncertainty of their wavelength measurements is
0.000 13 Å.
The ionization energy was determined by Johnson and
Soff 关85JOH兴 by means of a theoretical calculation.
H isoelectronic sequence
Ground state 1s 2 S1/2
Ionization energy 333 104 600⫾600 cm⫺1 共41 299.70
⫾0.07 eV兲 关85JOH兴
The four n⫽1 and n⫽2 energy levels we report for 53
times ionized xenon, Xe LIV, in the Xe LIV energy level table
were obtained from the relativistic calculations with QED
corrections of Johnson and Soff 关85JOH兴. The n⫽3 levels
were obtained from the relativistic calculations with QED
corrections of Erickson 关77ERI兴 using only the difference of
ⴰ
level 共for which we used the
these levels from the 2p 2 P3/2
value of Johnson and Soff 关85JOH兴兲. The uncertainties in the
theoretical values are about 700 cm⫺1 for the n⫽2 levels
and 1000–2000 cm⫺1 for the n⫽3 levels.
Briand et al. 关89BRI兴 reported the two Xe LIV resonance
References
77ERI
G. W. Erickson, J. Phys. Chem. Ref. Data 6,
831 共1977兲.
85JOH
W. R. Johnson and G. Soff, At. Data Nucl. Data
Tables 33, 405 共1985兲.
89BRI
J. P. Briand, P. Indelicato, A. Simionovici, V.
San Vicente, D. Liesen, and D. Dietrich,
Europhys. Lett. 9, 225 共1989兲.
Energy levels of Xe LIV
Energy level
共cm⫺1兲
0
Parity
Configuration
0
1s
关248 873 200兴
关252 320 500兴
1
1
2p
2p
关248 930 800兴
0
2s
J
Source
of level
1/2
85JOH
2 ⴰ
1/2
3/2
85JOH
85JOH
2
1/2
85JOH
2 ⴰ
1/2
3/2
77ERI
77ERI
S
1/2
77ERI
D
D
3/2
5/2
77ERI
77ERI
Term
2
P
P
1
1
3p
3p
关296 077 000兴
0
3s
2
3d
3d
2
0
0
S
2 ⴰ
关296 058 000兴
关297 082 000兴
关297 080 000兴
关297 396 000兴
S
2 ⴰ
P
P
2
Spectral lines of Xe LIV
Observed
vacuum
wavelength
共Å兲
0.396 39
0.401 92
Observed
wave
number
(103 cm⫺1 )
252 270
248 810
Intensity
and
comment
J
Uncertainty of
observed
wavelength
共Å兲
Source
of
line
3/2
1/2
0.000 13
0.000 13
89BRI
89BRI
Classification
Configuration
1s
1s
Term
2
2
S
S
J
1/2
1/2
Configuration
2p
2p
Term
2 ⴰ
P
P
2 ⴰ
J. Phys. Chem. Ref. Data, Vol. 33, No. 3, 2004