Summary of professional accomplishments
Piotr Pawªowski
H. Niewodnicza«ski Institute of Nuclear Physics
Polish Academy of Sciences
Contents
1 Curriculum Vitae
2
1.1
Personal data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2
Employment
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2
1.3
Education . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2
1.4
Skills . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2
2 Scientic Activity
2.1
2
3
Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3
2.1.1
Statistics of publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3
2.1.2
Statistics of citations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3
2.2
Scientic collaborations
2.3
Experiments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4
2.4
Grants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5
2.5
Conference presentations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5
3 Career
4
6
3.1
Pre-doctoral research work . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6
3.2
Scientic trainee-ship in France . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6
3.3
Work at the Institute of Nuclear Physics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7
3.4
Summary and outlook
8
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4 Scientic Achievement
9
4.1
List of works
4.2
Supplementary publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
9
4.3
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10
4.3.1
Equation of state of nuclear matter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10
4.3.2
Symmetry energy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10
4.3.3
Experimental study of the symmetry energy . . . . . . . . . . . . . . . . . . . . . . . . . .
11
4.3.4
Experiments in the intermediate energy domain . . . . . . . . . . . . . . . . . . . . . . . .
12
4.3.5
Experiments in the relativistic energy domain . . . . . . . . . . . . . . . . . . . . . . . . .
13
4.3.6
Experiments in the ultra-relativistic energy domain . . . . . . . . . . . . . . . . . . . . . .
13
4.4
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Discussion of the presented works . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
36
Ar +
58
Ni reaction at 95 MeV/nucleon
. . . . . .
9
13
4.4.1
Prompt light particle emission in the
4.4.2
Finite-size eects in phase transition of asymmetric nuclear matter . . . . . . . . . . . . .
15
4.4.3
New isospin eects in central heavy-ion collisions at Fermi energies
15
4.4.4
Neutron spatial distribution in nuclei and the impact-parameter dependence of the
. . . . . . . . . . . .
π + −π −
asymmetry in heavy-ion collisions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.4.5
The symmetry energy in nuclear reactions
4.4.6
Isoscaling and the symmetry energy in spectator fragmentation
4.4.7
Study of neutron emission using LAND detector
4.4.8
Neutrons from multifragmentation reactions
4.4.9
Neutron recognition in the LAND detector for large neutron multiplicity
. . . . . . . . . . . . . . . . . . . . . . . . . .
16
16
. . . . . . . . . . . . . .
16
. . . . . . . . . . . . . . . . . . . . . . .
17
. . . . . . . . . . . . . . . . . . . . . . . . .
4.4.10 KRATTA, a versatile triple telescope array for charged reaction products
Complete list of publications
14
17
. . . . . . . . .
17
. . . . . . . . .
18
19
1
Piotr Pawªowski Summary of professional accomplishments
1
CURRICULUM VITAE
1 Curriculum Vitae
1.1 Personal data
Dr Piotr Pawªowski
Birth date: March 27, 1967
Birth place: Kraków
Polska Nauka Database ID: 93785
ResearcherID: B-5497-2012
Address for correspondence:
Institute of Nuclear Physics, PAN
ul. Radzikowskiego 152
31-342 Kraków
Tel.: +48 126628422
Fax: +48 126628458
E-mail: [email protected]
1.2 Employment
2002
Institute of Nuclear Physics, Polish Academy of Sciences, Assistant Professor
1999-2002
Institut de Physique Nucléaire d'Orsay, France, Marie Curie fellowship
1998-1999
Institut de Physique Nucléaire d'Orsay, France, post-doc
1.3 Education
1998
PhD. in physical sciences
Investigation of impact parameter lters in the 40 Ca + 40 Ca reaction
at 35 MeV/nucleon
Dissertation:
Supervisor: Prof. Roman Pªaneta
1994-1998
Doctoral studies at Jagiellonian University
1993
M. Sc. degree in physics
Thesis:
Momentum transfer to the target-like fragment in heavy-ion reactions
Supervisor: Prof. Kazimierz Grotowski
1987-1993
Studies at the Faculty of Mathematics and Physics, Jagiellonian University
1982-1987
Technical secondary school, electronics, Kraków
1.4 Skills
•
Languages spoken: English, French, Russian
•
Programming: Fortran, Pascal, C, C ++, Java Script, PHP, HTML, MySQL
•
Administration of operating systems: Linux, LynxOS
•
Analysis workstations: PAW, Root, Gnuplot, Maple, Maxima
2 / 34
Piotr Pawªowski Summary of professional accomplishments
2
SCIENTIFIC ACTIVITY
2 Scientic Activity
2.1 Publications
2.1.1
Statistics of publications
Summary of publications in years 1993-2014
Before PhD
After PhD
TOTAL
6
41
47
0
40
40
0
4
4
0
7
7
6
92
98
Published
in journals
Conference
proceedings
Scientic
reports
Unpublished
articles
TOTAL
Journal
Publications from the Philadelphia List
1 Number of papers
Impact factor
Acta Physica Polonica B
0.742
4
European Physical Journal A
2.221
6
International Journal of Modern Physics A
0.890
1
International Journal of Modern Physics E
0.690
2
Nuclear Instruments and Methods A
1.268
5
Nuclear Physics A
1.774
7
Physica Scripta
1.186
1
Physical Review C
3.551
11
Physical Review Letters
7.411
4
Physics Letters B
4.156
3
Progress in Particle and Nuclear Physics
2.689
2
-
1
Zeitschrift für Physik A
Total
Total impact factor
2.1.2
125,06
Statistics of citations
Source: Web of Knowledge, December 17, 2014
Number of indexed articles:
Sum of the times cited:
without self-citations:
Number of citing articles:
without self-citations:
Average number of citations per article:
Average number of citations per year:
Hirsh index:
52
677
599
464
430
13.02
35,63
15
1 Source: Journal Citation Report, Thomson Reuters (2013)
3 / 34
47
Piotr Pawªowski Summary of professional accomplishments
2
SCIENTIFIC ACTIVITY
2.2 Scientic collaborations
1995-2000
2
AMPHORA (4; 29)
Study of nuclear system multifragmentation using the
4π
detector AMPHORA,
working at the ISN accelerator in Grenoble
1999-2006
INDRA (8; 49)
Study of nuclear system multifragmentation using the
4π
detector INDRA, working
at GANIL laboratory, Caen.
2002-2011
ALADIN2000 (10; 60)
Study of multifragmentation of the projectile-like fragment with a dipole magnet
ALADIN and cooperating detectors MUSIC IV, ToF and LAND, GSI laboratory,
Darmstadt.
2006-2011
SPALADIN (9; 34)
Measurement of spallation products in heavy ion reactions on the hydrogen target,
with the use of the experimental system of ALADIN Collaboration.
2009
NUSTAR/R3B (86; 320)
Construction of a new TPC detector for the FAIR facility, designed to measure the
decay products in the reactions with radioactive beams.
2009-2013
ASYEOS (26; 86)
Measurement of the symmetry energy term in the equation of state of nuclear
matter by measuring isospin of the light particles in the mid-rapidity domain, GSI
laboratory, Darmstadt.
2013-
Sπ RIT Collaboration (11, 28)
Determination of the equation of state of asymmetric nuclear matter, HIMAC/Nishina
Center, Wako-shi, Japan.
2.3 Experiments
1993
40
Ca +
40
Ca,
197
Au , 35 AMeV, AMPHORA, ISN Grenoble
Preparation of the experiment, calibration and data analysis
2001
124,136
Xe +
112,124
Sn, 32 i 45 AMeV, INDRA, GANIL Caen
Development of the experiment, data acquisition and calibration
2002
124,107
Sn,
124
La +
nat
Sn, 600 AMeV, ALADIN, GSI Darmstadt
Data calibration, analysis of LAND data
2009
136
Xe + p, 1 AGeV, SPALADIN, GSI Darmstadt
Preparation of the experiment, data acquisition
2011
197
Au +
197
Au,
101
Ru +
101
Ru,
91
Zr +
91
Zr, 400 AMeV, ASYEOS, GSI Darmstadt
Construction and testing of the KRATTA detector, preparation of the experiment,
data acquisition and analysis
2014
108,132 Sn + 112,124 Sn, 200 i 300 AMeV, Sπ RIT, RIKEN Wako-shi, Japan
Construction and testing of a triggering system, preparation of the experiment, data
acquisition and analysis
2 Numbers in brackets: number of institutions, number of members
4 / 34
Piotr Pawªowski Summary of professional accomplishments
2
SCIENTIFIC ACTIVITY
2.4 Grants
2000-2002
Multifragmentation and asymmetric nuclear matter
European Commission, HPMF-CT-1999-00238 (doer)
2002-2005
Isospin eects in multifragmentation of atomic nuclei
KBN, 2 P03B 110 23 (doer)
2006-2009
Study of spallation process at energy 1 AGeV
MNiSW, 1 P03B 020 30 (project manager)
2007-2009
Testing phase and isospin properties of nuclear matter in the process of multifragmentation
MNiSW, N202 160 32/4308 (doer)
2009-2012
Study of dependence of the nuclear symmetry energy on density in measurements of
the neutron and proton elliptic ow - construction and commissioning of a charged
particle detector and participation in the experiment at GSI
MNiSW, DPN/N108/GSI/2009 (doer)
2014-2015
Determination of the equation of state of asymmetric nuclear matter - construction
of triggering system for experiments at RIKEN
NCN, DEC-2013/09/B/ST2/04064 (project manager)
2014-2016
Determination of the equation of state of asymmetric nuclear matter
NCN, DEC-2013/10/M/ST2/00624 (doer)
2.5 Conference presentations
2000
Nuclear Structure of the Nucleus at the Dawn of the Century, Bologna
Presentation: Contribution of prompt emissions to the production of intermediate
36
58
velocity light particles in the
Ar +
Ni reaction at 95 MeV/nucleon.
2000
9
th
International Conference on Nuclear Reaction Mechanisms, Varenna
Presentation: Contribution of prompt emissions to the production of intermediate
36
58
velocity light particles in the
Ar +
Ni reaction at 95 MeV/nucleon.
2001
IV Latin American Conference on Nuclear Physics, Mexico City
Presentation: Finite-size eects in liquid-gas phase transition of asymmetric nuclear
matter.
2007
IWM2007 International Workshop on Multifragmentation and related topics, Caen
Presentation: Study of neutron emission using LAND detector.
2009
ESF Exploratory Workshop on How to Constrain the High Density Symmetry Energy - HiDeSymEne, Zagreb
Presentation: Sideward Wall Detector for the ASY-EOS experiment.
2010
ASY-EOS 2010 Workshop on Nuclear Symmetry Energy at Medium Energies, Noto
Presentation: Eciency of neutron detection in the LAND detector.
2012
ASY-EOS 2012 Workshop on Nuclear Symmetry Energy at Medium Energies, Syracuse
Presentation: Nuclear cluster formation in the participant zone of relativistic heavyion collisions.
5 / 34
Piotr Pawªowski Summary of professional accomplishments
3
CAREER
3 Career
3.1 Pre-doctoral research work
The beginning of my research can be considered since 1993, when I graduating from the Faculty of Mathematics and Physics, Jagiellonian University. My M.Sc. thesis titled:
transfer to the target-like fragment in heavy-ion reactions
Momentum
was performed at the Department
of Physical Electronics (later transformed into the Hot Matter Physics Department) under the
guidance of
experiment
Prof. Kazimierz Grotowski.
20
Ne +
157
Tb,
197
Au,
232
In this work, I analyzed the data obtained in the
Th, at incident energy 15 AMeV, made a year earlier at
the KVI laboratory in Groningen. Particular care of my work was then held by
Wieloch.
Dr. Andrzej
Thanks to his professional guidance I could perform the data analysis, the results
of which came to the publication [1].
After graduating, I had an annual academic training in the same Department. In this way I
could take part in my rst experiment in scientic careers. It was performed at ISN laboratory
in Grenoble with the use of
4π
detector called AMPHORA. The detector has been extended
by adding to a part of modules the miniature ionization chambers built in our laboratory [2].
This modication allowed for a signicant reduction of the detection threshold of the heavynuclei decay fragments.
As it turned out, it was important for the obtained results. The
40
experiment was devoted to the studies of the multifragmentation phenomenon in the
Ca +
40
197
Ca,
Au reactions at incident energy of 35 AMeV. Calibration and analysis of the data
obtained in this experiment became my main occupation during the four-year doctoral studies
at the Jagiellonian University, started in 1994. The results of the data analysis are given in a
series of works [3, 4, 5, 6, 7, 8, 9, 10, 11]. Especially great importance I attribute to the works
[3, 9, 11] which constitute one of the rst reports of emissions from the intermediate-velocity
source in the studied range of Fermi energy. My dissertation entitled
Investigation of impact
parameter lters in the Ca + Ca reaction at 35 MeV/nucleon was made under the guidance
40
of
Prof. Roman Planeta.
40
It was defended in June 1998.
3.2 Scientic trainee-ship in France
After obtaining PhD degree I went for an internship at the Institut de Physique Nucleaire
d'Orsay near Paris.
I joined the group NIM led by
Marie-France Rivet.
Prof. Bernard Borderie
and
Prof.
I was engaged in the works of INDRA collaboration, one of the leading
international collaborations working in the eld of nuclear multifragmentation. My one-year
work was divided into two parts. At the beginning I contributed to the experimental achievements of the collaboration, performing the calibration of the data obtained during the 4-th
experimental campaign of INDRA detector. In the second part of the internship I did analysis
36
58
of the promptly-emitted light particles in the reaction
Ar + Ni at incident energy 95 AMeV.
The results were then compared to the results of simulation basing on the coalescence model
modied according to my concept. and coupled with intra-nuclear cascade model ISABEL. The
results of this analysis were published in [12]*
3
In 1999, I applied, together with B. Borderie, for a grant from the European Commission
under the Human Potential Programme (Marie Curie fellowship) for a two-year research project
untitled
Multifragmentation and asymmetric nuclear matter.
We received the grant at the
beginning of 2000, so that my stay in France could be extended for next two years.
Under
guidance of B. Borderie I started working on the eects of isospin degree of freedom on the
course of nuclear reactions, with particular emphasis on the role of symmetry energy in the
equation of state of nuclear matter. I conducted a theoretical analysis of the problem of the
3 Works marked with an asterisk will be discussed in section 4
6 / 34
Piotr Pawªowski Summary of professional accomplishments
3
CAREER
129
nat
Xe+
Sn,
phase co-existence in small, two-component systems, published in [13]*.
Inspired by the results of the analysis of the multifragmentation in the system
32 AMeV conrming the existence of instability of the system related to the spinodal region
in the nuclear equation of state [14], we proposed, together with B. Borderie and R. Bougault,
an implementation of an experiment investigating the eects of the system isospin in the phase
124,136
112,124
transition of liquid-gas type in the systems
Xe +
Sn [15]. The proposal of this
experiment was approved for implementation by PAC of GANIL in 2001, in the frame of the
5-th INDRA experimental campaign. To be able to eectively investigate the isospin eects, a
part of INDRA modules were equipped with thinner silicon detectors, which yielded isotopic
resolution for light particles and fragments up to Z = 8. At the end of my stay in France, I
could still carry out precise calibration of these detectors.
Upon my return to Poland in 2002, during short stays in Bucharest and Caen in years
2003-2004 I worked with
Prof. Marian Pârlog on methods of energy calibration and particle
identication basing on Si-CsI maps [16]. Unfortunately, because of the large amount of work
with relatively small human resources, the calibration of the data from this experiment was
completed not earlier than in 2011. The rst results of the analysis of this experiment have been
published in [17]* and entered to the review of the INDRA Collaboration studies on isospin
eects and symmetry energy published recently [18].
3.3 Work at the Institute of Nuclear Physics
After return to Poland I got an employment in the Institute of Nuclear Physics. I joined
Department of Nuclear Reaction Mechanisms and Strong Interactions, driven initially by
Andrzej Budzanowski,
later by
Prof. Antoni Szczurek.
Prof.
With the latter one I started
collaborating in the eld of high energy physics. We undertook a theoretical work to explain
+
−
the dependence on the impact parameter of the asymmetry in production of π − π particles,
as observed in the NA49 experiment. The results of this work have been included in [19]*.
In my further work I concentrated on the possibilities of an experimental study of symmetry
energy in the equation of state of nuclear matter. A good opportunity was the co-operation
with
Dr. Janusz Brzychczyk, who was participating in the work of ALADIN collaboration.
In the frame of analysis of the S254 experiment, where the
124,107
Sn,
124
La +
nat
Sn reactions
were studied at incident energy of 600 AMeV [20, 21, 22, 23, 24, 25], we have started works on
a dicult problem of identication of neutrons in the LAND detector. We have developed a
new method to distinguish neutrons in LAND, dedicated specically to heavy-ion experiments
characterized by large observed neutron multiplicities. Basing on this analysis we carried out an
analysis of correlation between neutron multiplicity and collision centrality [26, 27, 28]*. Also
the work [29] uses the algorithm developed by us. Paper [30]* contains a detailed description
of the algorithm together with an analysis of neutron detection eciency of the detector, and
discussion of applicability of various analytical tools.
In 2006, I took part in the preparation of a new experiment of SPALADIN collaboration.
136
In this experiment, the products of projectile decomposition were studied in the
Xe reaction
with hydrogen target (in reverse kinematics) at energy of 1 AGeV [31]. For this project, entitled
Study of spallation process at energy 1 AGeV, I obtained a grant from Polish Ministry of Science
and Higher Education (1 P03B 020 30). The aim of the project, besides the realization of the
experiment planned by DAPNIA/CEA Saclay group, was developing of theoretical work on the
spallation model, basing on the idea of QMD. The model was developed in co-operation with
Dr. Zbigniew Sosin
[32]. In collaboration with the CEA Saclay laboratory I also took part
in testing of a prototype of the TPC chamber proposed for future experiments at R3B@FAIR
[33].
In 2009 I returned to the studies of symmetry energy in nuclear matter. The idea of a new
7 / 34
Piotr Pawªowski Summary of professional accomplishments
3
CAREER
experiment for measuring the symmetry energy in nuclear reactions was born on symposium
organized in Zagreb.
After the symposium the ASYEOS collaboration was formed, aiming
to determine the parameters of the symmetry energy term in the equation of state of nuclear
matter [34]. The LAND detector was planned to be the main research tool in this experiment.
Its task was to measure simultaneously proton and neutron ows in the mid-rapidity region.
To collect full information on the isospin of measured particles it was necessary to build a
complementary detector being able to separate both the hydrogen and helium isotopes and the
heavier decay products in a wide range of energy.
device together with
We undertook the construction of such a
Dr. Jerzy Šukasik and our colleagues from the Jagiellonian University.
For the construction of this device, called KRATTA (KRAkow Triple Telescope Array), we
received a grant from Ministry of Science and Higher Education.
out between 2009-2012.
The project was carried
With the constructed detector we reached extremely high quality
experimental data [35]*.
3.4 Summary and outlook
During my post-doctoral research work in the eld of nuclear reactions an increasingly
important role was played by issues connected to isospin asymmetry in nuclear matter. In the
area of theoretical works the isospin degree of freedom was introduced to the nuclear equation
of state, and the isospin asymmetry in isobar production was highlighted. In the experimental
studies, a number of innovations in the existing research infrastructure was introduced, both
to provide radioactive beams and improve the isotopic resolution of fragments observed in
nuclear reaction.
Improvement of neutron detection eciency has become a very important
issue, especially in heavy-ion reactions, characterized by a large number of emitted neutrons.
As a member of the leading research groups studying these issues, I took an active part in
both experimental and theoretical works. My research can be divided into 3 main areas:
1. Study of production of isospin-asymmetric fragments in nuclear reactions
2. Study of asymmetry in emission of isospin-asymmetric hadrons (
n/p, π + /π − ).
3. Study of the equation of state of asymmetric nuclear matter.
In the coming few years, I'm going to focus on the analysis of data from experiments carried
out in this eld. These are mainly experiments of ASYEOS and Sπ RIT collaborations. In the
longer term I plan to engage in the works of R3B collaboration, working on the development of
research infrastructure devoted to nuclear astrophysics, currently being built at FAIR facility
in Darmstadt [36].
8 / 34
Piotr Pawªowski Summary of professional ...
4
SCIENTIFIC ACHIEVEMENT
4 Scientic Achievement
On the basis of Art. 16 paragraph 2 section 1 of the Act of March 14, 2003 on academic
degrees and academic titles and degrees and title in art, as a scientic achievement I present
a series of related publications. The topic of the cycle is
mentation of nuclear systems.
Study of isospin eects in multifrag-
4.1 List of works
1. Finite-size eects in phase transition of asymmetric nuclear matter
Physical Review C
65, 044615 (2002).
2. Neutron spatial distribution in nuclei and the impact-parameter dependence of the
π + −π −
asymmetry in heavy-ion collisions
Physical Review C
70, 044908 (2004).
3. The symmetry energy in nuclear reactions
International Journal of Modern Physics E
19, 1653(2010)
4. Isoscaling and the symmetry energy in spectator fragmentation
International Workshop on Multifragmentation and related topics vol.
91, (Italian Phys-
ical Society, 2005), pp. 157-166.
5. Study of neutron emission using LAND detector
International Workshop on Multifragmentation and related topics vol.
95, (Italian Phys-
ical Society, 2007), pp. 233-239
6. Neutrons from multifragmentation reactions
XLIX International Winter Meeting on Nuclear Physics, Bormio (Proceedings of Science,
2011), PoS(Bormio 2011)018.
7. KRATTA, a versatile triple telescope array for charged reaction products
Nuclear Instruments and Methods A
709, 120 (2013)
4.2 Supplementary publications
Due to the requirement to provide statements of all the co-authors of each publication I could
not join a series of three experimental works that are relevant to my research.
The number
of co-authors in the eld of experimental nuclear physics often reaches several tens or even
hundreds of names, eectively making it impossible to reach all co-authors. The requirement
to collect a complete set of such statements signicantly discriminate experimentalists working
in large research teams. In this situation, I join these publications as complementary, although
ocially not part of the cycle, with the hope that the assessment of Reviewers will take into
account also this part of my scientic contribution. These are the following works:
1. Prompt light particle emission in the
European Physical Journal A
36
Ar +
9, 371(2000)
58
Ni reaction at 95 MeV/nucleon
2. New isospin eects in central heavy-ion collisions at Fermi energies
Phys. Rev. C
86 , 044617(2012)
3. Neutron recognition in the LAND detector for large neutron multiplicity
Nucl. Instr. and Meth. A
694, 47 (2012)
9 / 34
Piotr Pawªowski Summary of professional ...
4
SCIENTIFIC ACHIEVEMENT
4.3 Introduction
4.3.1
Equation of state of nuclear matter
The equation of state of nuclear matter is of fundamental importance for both nuclear
physics and astrophysics. However, our understanding of the nuclear equation of state is limited,
mainly due to poor knowledge of the dependence of the isospin-symmetry energy on nuclear
matter density. While signicant progress has been made in determining the energy symmetry
around the normal nuclear matter density
ρ0 ,
still little is known about its behavior at high
density.
Intensive experimental studies of the symmetry energy in the equation of state of nuclear
matter began at the turn of the century. As one of the research methods, the heavy-ion collisions
around the Fermi energy and in the domain of relativistic energy (400
− 800
AMeV), were
considered. This research was accompanied by an intensive development of theoretical models
in which the equation of state was supplemented with a term containing the symmetry energy.
The eorts of theorists have been focused on the identication of experimental observables
allowing to determine the boundaries of the parameters of symmetry energy term.
4.3.2
Symmetry energy
The symmetry energy is the part of the total energy of a nuclear system, which comes
from its isospin. Its non-zero value in asymmetric nuclear matter comes from the Fermi-Dirac
statistics, ordering the fermionic systems.
It was rst dened in 1935 by German physicist
Carl Friedrich von Weizsäcker as a part of, so called, mass formula (also known as BetheWeizsäcker formula), describing the nuclide mass depending on the atomic number and mass.
An important element of this semi-empirical formula is the binding energy of the nucleus, which
in turn was presented as the sum of the volume, surface, symmetry, Coulomb and paring terms.
The formula became the basis for the drop model developed and expanded in subsequent years.
In original Weizsäcker approach the symmetry energy per nucleon, takes the form:
Esym = aS
where
N
and
Z
N −Z
N +Z
2
,
are the numbers of neutrons and protons, respectively, and
(1)
aS
is a constant
parameter which is obtained, together with the other parameters of the mass formula, from a
t to the measured values of the binding energy of known atomic nuclei.
In the case of innite nuclear matter, in order to avoid a divergence of equation of state, in
place of the nite values of
N
and
Z,
the densities of neutrons and protons,
ρn
and
ρp ,
were
introduced, and the energies corresponding to each term of the formula were replaced with the
corresponding energy densities. Equation of state of asymmetric nuclear matter is often taken
as an expansion around the normal density
etot (ρ) = E +
In the formula above,
ρ0
up to the second term:
1 (ρ − ρ0 )2
K
+ δ 2 esym (ρ)
18
ρ20
(2)
ρ = ρn +ρp is the density of nuclear matter, etot and esym are, respectively,
−ρp
δ = ρρnn +ρ
is a factor of local isospin
p
densities of total energy and symmetry energy, and
asymmetry.
The linear term in expansion must disappear under the assumption that the
ρ = ρ0 .
esym (ρ) is not known, and so is the subject of intensive research.
energy of the system is at its minimum for
The functional dependence
Typically, this dependence is assumed to be approximately parabolic, at least in the vicinity of
ρ ≈ ρ0 ρ ≈ ρ0 .
Slightly dierent approach is applied in the SMM model, where symetry energy
10 / 34
Piotr Pawªowski Summary of professional ...
is described in terms of drop model (1), and
aS ,
4
SCIENTIFIC ACHIEVEMENT
a constant of value of 23 MeV in drop model,
become here a variable changed between 4-25 MeV.
In the high-density region the symetry energy is usually assumed as a power law relationship
of type:
esym (ρ) ∼
where the exponent coecient
γ
ρ
ρ0
γ
,
(3)
which value is estimated between 0.5 - 1.5, is a parameter
dening the, so-called, "stiness of symmetry energy, the lower value of this parameter (γ
corresponding to a "soft", and higher (γ
> 1)
to a sti equation of state.
< 1)
Such a broad
boundaries in the estimation of the stiness of the symmetry energy result in relatively small
dierences between the various theoretical approaches when the nuclear matter density
ρ < ρ0 .
Nevertheless, the dierences rapidly increase with the increase of the nuclear matter density
above
ρ0 .
But, e.g. in the physics of neutron stars, it is important to determine the properties of
nuclear matter at densities of the order of
the
γ
2ρ0 − 3ρ0 .
A need for a more precise determination of
parameter became the reason for the implementation of a number of experiments devoted
to the study of isospin phenomena in heavy-ion reactions.
4.3.3
Experimental study of the symmetry energy
Investigation of the symmetry energy of nuclear matter is an extremely dicult experimental
problem. This is due to several reasons:
1. In the laboratory, nuclear material occurs only in the form of nuclei, and hence the systems
of at most several hundreds of nucleons. The behavior of such small droplets of nuclear
matter is characterized by a very strong inuence of surface and Coulomb eects, both
absent in theory of innite nuclear matter ([13], see 4.4.2).
2. The only known way to produce in the laboratory a large enough piece of highly compressed nuclear matter is to accelerate the nuclei and subjecting them to central collisions.
However, the cross-section for the central collisions is very small, and the selection of such
events from the experimental data is dicult, and biased with big systematic and statistic
errors [5].
3. The emergence of highly compressed nuclear matter in a heavy ion collision is accompanied
by a number of prompt emission phenomena, the nature of which we do not know exactly.
These phenomena are superimposed on the emission of particles from the compression
zone, disturbing the picture of decay of compressed nuclear matter ([12, 37], see 4.4.1).
4. Compressed nuclear system decomposes very rapidly in many excited fragments, that
deexcite by emitting large numbers of neutrons, protons and composite particles. This
issue also disturbs the picture of the early phase of the reaction.
5. In the experimentally-available range of isospin asymmetry, the symmetry energy is relatively small compared with other terms of the equation of state, so that the corresponding
eects are rather subtle and dicult to observe.
In such a situation the experimental eorts need to be strongly supported by model calculations.
In the course of theoretical works a number of observables were highlighted, which can carry
information about the parameters of the symmetry energy.
parameters, and parameters of particle ows.
11 / 34
These are mainly the isoscaling
Piotr Pawªowski Summary of professional ...
Isoscaling
4
SCIENTIFIC ACHIEVEMENT
This is a phenomenon characteristic for many elds in physics of nuclear reactions.
It is observed by comparing the yields of selected particles in the decay of the nuclear systems
of identical mass but dierent in isospin. Measuring the cross-sections in such two reactions
Y1 (N, Z)
Y2 (N, Z)
neutrons N ,
and
number of
for the production of a fragment of a given number of protons
α
and
β,
and
a scaling can be observed in the form:
R21 (N, Z) =
Parameters
Z
Y2 (N, Z)
= C exp(αN + βZ)
Y1 (N, Z)
(4)
on the grounds of the Grand Canonical Ensamble remain in close con-
nection with the symmetry energy ([26], see 4.4.6). This approach is particularly applicable in
the low density limit, and so in the range of reaction energies around, or slightly higher, than
Fermi energy.
Study of particle ow
In the high-energy nuclear reactions, the particles are emitted in
the vast majority in the reaction plane. This applies in particular to the areas of phase space
located close to the projectile or target. However, in the mid-rapidity region, the particles are
emitted mainly in a direction perpendicular to the reaction plane, which is interpreted as the
eect of "squeezing" of particles from the strong-compression zone. To study this phenomenon
new observables were proposed, called directed ow and elliptic ow. They are dened as the
rst and second term in the Fourier series development of the azimuthal distribution of the
particles relative to the reaction plane:
∞
X
dN
vn cos(n∆φ),
=1+2
d(∆φ)
n=1
where
∆φ
(5)
is the azimuthal angle of a particle relative to the reaction plane.
UrQMD
simulations show that so dened ows of neutrons and protons in the mid-rapidity region show
sensitivity to the stiness of the symmetry energy term in equation of state. In particular, the
elliptic ow
v2
is higher for protons than for neutrons with the sti symmetry energy, while
vice versa is with a soft one [34, 38].
4.3.4
Experiments in the intermediate energy domain
Generally accepted reaction scenario for central heavy-ion collisions at energies of the order
of Fermi energy, predicts the initial compression phase, whose strength depends on the CM
incident energy and masses of the collided nuclei. Then there is an expansion phase, which is
accompanied by the emission of preequilibrium particles. Diluted nuclear system then enters
into the phase-coexistence region (binodal region) of the phase diagram, and nally breaks
down into several excited fragments and light particles. When the nuclear interaction between
the fragments become negligible, one says about a "freeze-out" stage.
Finally, the reaction
products move away from each other, further accelerated by Coulomb forces, ultimately losing
their excitation energy through evaporation of light particles and gammas.
From the point of view of theoretical approaches it is very important to know how much
the boundaries of the binodal region change, when the eects from the nite size of the nucleus
and the Coulomb interaction between protons is introduced in the equation of state of nuclear
matter. The paper [13] is devoted to this subject. The work shows how important is taking into
account the surface energy, and, in particular, the nucleus Coulomb energy, when one considers
phase transitions in small nuclear systems (see 4.4.2).
From the point of view of experimental research an important issue is profound knowledge
of the dynamic nature of the phenomenon of particle emissions in the mid-rapidity region. This,
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Piotr Pawªowski Summary of professional ...
4
SCIENTIFIC ACHIEVEMENT
so called, promptly emitted particles, or preequilibrium emission are the topic addressed in the
work [12] (see 4.4.1).
One of the rst experiments devoted to the study of symmetry energy was proposed in
INDRA collaboration by B. Borderie, R. Bougault and myself. In this experiment, conducted
at GANIL, the
124 Sn targets.
124 Xe and 136 Xe ions at energies from 32 to 45 AMeV were impinged on 112 Sn i
The purpose of this preliminary experiment was to capture the major dierences
in the distributions of the observables characterizing the reaction, depending on the isospin of
the system. The results of this experiment are presented in the paper [17] (see 4.4.3).
4.3.5
Experiments in the relativistic energy domain
Deeper experimental knowledge of the dependence of the symmetry energy on nuclearmatter density requires the study of heavy-ion reactions at high energies, and the development
of ensemble of observables, sensitive to the eects of the mean eld in the early stage of the
reaction, when the nuclear mater is subjected to maximum compression. As mentioned above,
among the observables proposed by theorists one should mention the isoscaling parameters and
+
−
dierential measurements of ows for isospin-asymmetric particle pairs, such as p − n, π − π ,
or
3 He−3 H. For a further development of this branch of experimental studies, advances in the
art of the preparation of radioactive beams, as well as neutron detection and identication of
charged particles of dierent isotopic states became essential.
My contribution in this eld
concerns developing of a new algorithm for the analysis of multi-neutron events in layered
neutron detectors, like LAND ([30], see 4.4.9), as well as the construction of a charged particle
detector KRATTA, used in the ASYEOS experiment ([35], see 4.4.10). The neutron-emission
124,107
124
nat
analysis in ALADIN2000 experiments
Sn,
La +
Sn, at incident energy 600 AMeV
entered into the papers [26] (see 4.4.6), [27] (see 4.4.7), and [28] (see 4.4.8).
Other works
of the ALADIN2000 collaboration in which I participated, like [20], [23] (see 4.4.5), and [39]
concerned analysis of charged particles. Among the papers of ALADIN2000 collaboration, to
the current presentation I have selected the ones that seem to me to be particularly interesting,
and at the same time my contribution to them has been considerable. Concerning the ASYEOS
collaboration, the analysis of the data obtained from the experiment is currently in progress.
The rst, preliminary results of the study can be found in [40].
4.3.6
Experiments in the ultra-relativistic energy domain
An interesting issue is the study of the properties of nuclear matter in the range of ultrarelativistic energies, where the central collisions may lead to formation of quark-gluon plasma.
It can be expected in this energy domain, that the symmetry energy term in nuclear equation of
state may play an important role in the process of particle formation. From this point of view,
very interesting phenomena can be observed in the production of hadrons of opposite isospin,
+
−
like π − π . My collaboration with Antoni Szczurek was a good opportunity to look at these
208 Pb+208 Pb
phenomena up close in the
reaction studied in NA49 experiment at CERN. This
work was published in [19] (see 4.4.4). Symmetry energy measurement by measuring the ows
of charged pions is the main objective of the Sπ RIT collaboration. The experiment prepared
by us in co-operation with our colleagues from China, Korea, Japan, USA and UK, aims to
study
108,132 Sn
+
112,124 Sn
reactions at energies of 200 and 300 AMeV, and will be driven at
RIKEN laboratory in 2015.
4.4 Discussion of the presented works
The series of works selected for this presentation are intended to illustrate a broad range of
issues related to the studies of isospin eects in nuclear-reaction physics:
13 / 34
Piotr Pawªowski Summary of professional ...
•
critical phenomena in nite-size nuclear systems (see 4.4.2)
pion production in ultra-relativistic reactions (see 4.4.4)
INDRA Collaboration (see 4.4.1 and 4.4.3)
ALADIN2000 Collaboration (see 4.4.5, 4.4.6, 4.4.7 and 4.4.8)
Instrumentation issues
4.4.1
cluster production in intermediate-energy reactions (see 4.4.1)
Experimental data analysis
•
SCIENTIFIC ACHIEVEMENT
Theoretical calculations
•
4
neutron recognition in LAND detector (see 4.4.9)
Construction and performance of KRATTA detection system (see 4.4.10)
Prompt light particle emission in the 36 Ar + 58 Ni reaction at 95 MeV/nucleon
European Physical Journal A 9 (2000), pp. 371-383.
In the experimental studies of nuclear multifragmentation in the intermediate energy range,
a very important role is played by, so called, promptly emitted particles. This pre-equilibrium
emission is caused by nuclear reaction dynamics.
As a result of this early emission, the nu-
clear system is expected to loose a large part of initial energy and angular momentum.
As
a consequence, the excitation energy and spin of the pre-fragments, formed in the process of
the nuclear fusion, are signicantly reduced. These promptly emitted particles are dicult to
distinguish from that ones issued much later in the process of evaporation from the hot nuclear
fragments. So, in order to study the behavior of nuclear matter subjected to high temperatures
and pressures - which is one of the main motivations of studying multifragmentation phenomena - it is necessary to study the mechanism of production of these particles and formulate an
appropriate theoretical model.
One of the characteristics of early emission of particles is their broad spectrum of energy in
the center of mass of the system, indicating the dynamic nature of this emission. Although in
the prompt component of the particle emission the dominant role is played by single nucleons,
2
3
3
4
the composite particles such as H , H, He or He are here also experimentally observed. There
are two main hypotheses to explain the mechanism of their formation:
1. existence of nuclear clusters in cold nuclei, releasing as a result of the collision (preexistence)
2. accidental formation of clusters in the early phase of the reaction (coalescence).
The prompt emission is relatively easiest to distinguish from emissions of evaporated particles
in the mid-rapidity region.
Publication discussed here is devoted to the light emission of
36
Ar +58 N i at incident
charged particles in the intermediate velocity region in the reaction
energy 95 MeV/nucleon, measured with INDRA
4π
detector. This work investigates the energy
60◦ and 120◦ in the
distributions of particles observed in the range of polar angles between
center of mass of the system. The data are compared with the model calculations consisting
of intra-nuclear cascade code ISABEL and an improved version of the coalescence model. The
model reproduced relatively well the total prompt emission in the studied area, however, it was
not able to adequately describe the energy spectra of the composite particles. Particularly, the
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Piotr Pawªowski Summary of professional ...
4
SCIENTIFIC ACHIEVEMENT
probability of a random formation of a particle consisting of more than 3 nucleons seems to be
too small to explain the relatively large cross sections observed for
α
particles .
Analyzing the velocity spectra, a fundamental dierence in the mechanism of production of
2
3
individual particles can be postulated. It seems that the production of H and H takes place in
3
4
a coalescence-like process, whereas He, and He are formed mainly as a result of evaporation
of hot fragments and release of pre-existing
α
clusters. This observation is important for the
3
3
study of thermodynamic properties of nuclear matter, as the ratio of yields H/ He is one of
the main instruments to measure temperature of hot sources.
As the main author of this publication, I made an analysis of experimental data and model
calculations, formulating a generalized form of the coalescence model.
Publication text and
drawings are also done by myself. The paper was cited 14 times.
4.4.2
Finite-size eects in phase transition of asymmetric nuclear matter
Physical Review C 65 (2002), pp. 044615-1-04615-6.
The observations of the multifragmentation of heavy nuclear systems are considered as
a tool of conrmation of thermodynamic properties of nuclear matter.
However, it remains
an open question, what is the impact of the nite size of the nuclei on the phase diagram.
Both surface and Coulomb energies introduce to the nuclear equation of state non-local terms,
strongly depending on the spatial conguration of the nuclear system.
The work aims to
estimate the scale of the changes in the phase diagram, which can be expected after taking
them into account.
In the study, a conguration of nuclear system in the form of a liquid
drop surrounded by nuclear gas, is considered. Then, basing on the Gibbs equations, the phase
equilibrium conditions are dened.
It turns out that the eects of nite size and Coulomb
repulsion signicantly aect the location of the boundaries of the phase coexistence. The work
shows the scale of these dierences as a function of the size of the system.
In particular, it
appears that in systems with a small number of nucleons the gas phase is more dense and
isospin-symmetric compared to innite nuclear matter.
This work was done entirely by myself.
Inspiration for writing this work was gave by
B. Borderie. The paper was cited 10 times.
4.4.3
New isospin eects in central heavy-ion collisions at Fermi energies
Physical Review C 86 (2012), pp. 044617.
In 2000, together with B. Borderie and R. Bougault, we proposed the implementation of an
experiment investigating the impact of system isospin on the multifragmentation phenomena
124.136
112.124
in the systems
Xe +
Sn. The design of this experiment was approved for implementation by the GANIL PAC in 2001, in the frame of 5-th experimental campaign of INDRA.
To be able to eectively investigate the isospin eects, it was necessary to equip a number of
INDRA modules with thinner silicon detectors, which yielded isotopic resolution for light particles and fragments up to
Z = 8.
The work discussed here is the rst analysis of the results of
this experiment. It presents the basic relationship of experimental observables (multiplicities,
kinetic energies of fragments) on the isospin state of the input channel of the reaction. The experimental results are compared with the results of calculations using the stochastic mean-eld
model (SMF).
Except preparation of the proposal of the experiment, my contribution concerns also the
data calibration, particularly the particle isotopic identication software for
Z≤8
particles in
the detection modules equipped in the silicon detectors of reduced thickness. The paper was
cited 13 times.
15 / 34
Piotr Pawªowski Summary of professional ...
4.4.4
4
SCIENTIFIC ACHIEVEMENT
Neutron spatial distribution in nuclei and the impact-parameter dependence
of the π + − π − asymmetry in heavy-ion collisions
Physical Review C 70 (2004), pp. 044908.
π
+
This paper attempts to explain the dependence of the asymmetry of production of mesons
−
and π
on the reaction impact parameter, as observed in heavy-ion collisions at ultra-
relativistic energies. A hypothesis about the inuence of the, so-called, neutron skin observed
in heavy nuclei, such as
208 Pb,
is tested.
The study compares the results of the HIJING
model and the model of wounded nucleons, applied to experimentally measured cross sections
for nucleon-nucleon scattering. Both approaches yielded qualitatively similar results, but they
+
−
provide a signicant increase in asymmetry π −π only for very peripheral collisions. Another
explanation of the phenomenon, basing on an electromagnetic eect in peripheral collisions, was
proposed by A. Rybicki and A. Szczurek (Phys. Rev C 75, 054903). A possible inuence of
symmetry-energy term in the nuclear equation of state was not studied yet in this energy
domain.
My contribution to this work concerns the model calculations, analysis of results, and preparation of the manuscript. The paper was cited 4 times.
4.4.5
The symmetry energy in nuclear reactions
International Journal of Modern Physics E 19 (2010), pp. 1653-1663.
The paper presents the basic research tools used in the study of symmetry energy of nuclear
matter. The results of the projectile fragmentation measured in the ALADIN2000 experiment,
and previous FOPI/LAND experiment
197 Au
+
197 Au,
at incident energy of 400 AMeV, are
analyzed. The experimental measurements of isoscaling and
n−p
ow are confronted against
the results of two dierent model calculations: Statistical Multifragmentation Model (SMM)
and Ultra-relativistic Molecular Dynamics (UrQMD). Analysis within the SMM model shows
that the symmetry energy of created fragments, described by liquid-drop formula, signicantly
decreases with increasing multiplicity of decay fragments. A comparison of the measured parameters of neutron and hydrogen ow with that expected by UrQMD model shows a moderately
γ
soft symmetry energy dependence on density in the form (ρ/ρ0 ) where γ = 0.9 ± 0.3.
My contribution to this work concerns experimental data calibration and discussion of the
experimental results and SMM predictions. The paper was cited 6 times.
4.4.6
Isoscaling and the symmetry energy in spectator fragmentation
International Workshop on Multifragmentation and related topics vol. 91 , (Italian Physical
Society, 2005), pp. 157-166
12 C +
The paper presents the results of two experiments performed at GSI Darmstadt:
112,124 Sn with incident energies from 200 to 300 AMeV, measured with INDRA detector, and
124.107
Sn
124
La +
nat
Sn, with the incident energy of 600 AMeV conducted in 2003 by the AL-
ADIN2000 collaboration. The paper presents the concept of isoscaling and the link between
the isoscaling parameters and symmetry energy. The experimentally observed dependence of
isoscaling parameters on the collision centrality is shown.
Furthermore, the results of mea-
surement of the neutron multiplicity emitted from the projectile-like fragment in the reactions
124.107 Sn + nat Sn at 600 AMeV, and its dependence on the collision centrality are presented.
My contribution to this work, besides calibration of the ALADIN2000 data, involves obtaining neutron absolute multiplicities from LAND detector (Figure 4). This result has been
corrected in later works, thanks to a new algorithm for analyzing events recorded in the LAND
detector (see 4.4.9).
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Piotr Pawªowski Summary of professional ...
4.4.7
4
SCIENTIFIC ACHIEVEMENT
Study of neutron emission using LAND detector
International Workshop on Multifragmentation and related topics vol. 95 , (Italian Physical
Society, 2007), pp. 233-239.
The paper expands the analysis of neutron emission in the mentioned above experiment of
the ALADIN2000 collaboration. The algorithm to identify neutron tracks in the LAND detector
developed by myself (see 4.4.9) made possible to establish the multiplicity of neutrons and the
neutron-source temperature as a function of collision centrality. Comparing the data obtained
in the reactions with various projectiles, a strong correlation with the projectile isospin was
observed in measured neutron multiplicities, with maxima varying from around 7 for neutronpoor to around 12 for neutron-reach system. The maxima are located between
(quantity
Zbound =
P
Zi ≥2 Zi
30 ≤ Zbound ≤ 40
is a measure of collision centrality) independently of the projectile
isospin. On the other hand, the source temperature, measured with the width of the neutron
transverse momentum distribution did not exhibit any remarkable correlation with projectile
isospin, as well as only a small dependency, from 2 MeV to 4 MeV, on the collision centrality,
with an interesting plateau region between
20 ≤ Zbound ≤ 35.
My analysis of the LAND data and neutron emission is the main content of this work.
4.4.8
Neutrons from multifragmentation reactions
XLIX International Winter Meeting on Nuclear Physics, Bormio (Proceedings of Science,
2011), pp. PoS(Bormio 2011)018.
The work is a continuation of the analysis of neutron emission in the ALADIN2000 experiment. The measurement results were compared with the model calculations of the SMM
code.
A good agreement with experimental data was achieved in the case of distribution of
the neutron-to-proton ratio in charged fragments. On the other hand, neutron multiplicities
are in good agreement only in the most peripheral collisions.
In the area of central colli-
sions SMM model underestimates the observed experimental neutron multiplicity. It suggest
a possible modication of the liquid-drop parameters of the fragment description in function
of thermodynamic temperature..
A signicant reduction of the symmetry-term coecient is
found necessary to simultaneously reproduce the neutron multiplicities and the mean neutronto-proton ratios of
Z ≤ 10
fragments.
A more complete development of the subject will be
published in an upcoming article [41].
Similarly to the previous work, this paper contains my analysis of LAND data.
4.4.9
Neutron recognition in the LAND detector for large neutron multiplicity
Nuclear Instruments and Methods A 694 (2012), pp. 47
This work presents a method of analysis of neutron tracks recorded by the LAND detector.
This new method was developed because the previously used method of LAND-data analysis
were not suitable for use in the case of neutron multiplicities greater than 3. It is well known
that neutrons interact with matter only by entering into reactions with nuclei of the medium,
which gives rise to secondary ionizing particles, giving trace in the detector. These secondary
ionizing particles are recorded as a track of a neutron passing through the detector, wherein one
neutron can leave few such tracks. The main diculty at higher number of the incident neutrons
is merging of traces from dierent neutrons, which leads to a systematic underestimation of the
the measured neutron multiplicities compared to the actual number of interacting neutrons.
The principle of operation of the new algorithm is a recursive build of chains, or trees, of "hits"
corresponding to one interacting neutron. In contrast to the previously used method, the hits
are organized according to their spatial distribution, and not according to the time sequence.
This approach allowed for signicant improvement of agreement with the actual multiplicity
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Piotr Pawªowski Summary of professional ...
4
SCIENTIFIC ACHIEVEMENT
of incident neutrons. The new method is universal and can be used in other similar neutron
detectors, as NEBULA or NeuLAND.
The algorithm presented in this work was done by myself in co-operation with J._Brzychczyk.
Model simulations were done also by myself. As the principal author of the paper, I wrote the
text and prepared the presented gures. The paper was cited 2 times.
4.4.10
KRATTA, a versatile triple telescope array for charged reaction products
Nuclear Instruments and Methods A 709 (2013), pp. 120-128.
This work is the technical description and the results obtained with the use of the KRATTA
detector, of which I am a co-founder. KRATTA is a triple telescope detector, whose purpose is
recording and identication of the fragments emitted in the region of intermediate rapidity in the
ASY-EOS experiment. Thanks to the innovative solutions, the detector allowed for registration
of light reaction products in a wide energy range.
The detector consists of 38 independent
modules, which can be set in various spatial congurations. This property determines the device
versatility, which makes it a very interesting research tool used in the Bronowice Cyclotron
Center by numerous Polish and foreign research teams.
Each KRATTA module contains two inorganic scintillators (CsI crystals). The light from
them is read-out by silicon photodiodes with large active surface area (28x28 mm2). Photodiodes, in addition to reading the light generated by ionizing radiation inside the scintillator,
works itself as a silicon detectors. Such a conguration, called SCT (Single Chip Telescope)
gives opportunity to read both
∆E
and
E
signals in one electronic channel, allowing the iden-
tication of the hitting particle. To unfold the components derived from the scintillator and
silicon, it is necessary to record the entire electrical pulse, and then subject it to an advanced
digital processing.
KRATTA detector has proven to be an extremely valuable tool in setting of the ASYEOS
experiment.
Given the diculties with the analysis of the data obtained in this experiment
from the LAND detector, the data obtained from the KRATTA detector proved to be the
main source of information about ow of light charged particles, which in turn is a source of
knowledge about the symmetry energy of nuclear matter. Preliminary results of the analysis
of data collected by the KRATTA detector are published in paper [40].
In the frame of this work I took part in designing, building and testing of the detection
modules.
I took also part in the experiment, taking responsibility for data acquisition and
calibration of the KRATTA detector. The paper was cited 2 times.
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Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
Complete list of publications
[1] A. Wieloch, J. Brzychczyk, K. Grotowski, H. K. W. Leegte, S. Micek,
P. Pawªowski, R. Planeta, R. H.
Siemssen, Z. Sosin, H. W. Wilschut, K. Siwekwilczynska, and J. Wilczynski, Missing momentum vector in
the
197
Au(
20
Ne; f1 ,f2 ,PLF) reaction at 15 MeV/u,
Nuclear Physics A, vol. 584, no. 3, pp. 573588, 1995.
[2] T. Barczyk, J. Brzychczyk, P. Burzynski, W. Gawlikowicz, K. Grotowski, S. Micek,
P. Pawªowski,
R. Planeta, A. Cole, A. Chabane, P. Desesquelles, A. Giorni, D. Heuer, A. Lleres, J. Viano, D. Benchekroun,
B. Cheynis, A. Demeyer, E. Gerlic, D. Guinet, P. Lautesse, L. Lebreton, M. Stern, and L. Vagneron,
Gas chambers for identication of charged particles in
4π
systems,
Nuclear Instruments and Methods A,
vol. 364, pp. 311316, 1995.
[3]
P. Pawªowski,
J. Brzychczyk, A. Cole, P. Desesquelles, W. Gawlikowicz, K. Grotowski, P. Hachaj,
S. Micek, R. Planeta, Z. Sosin, A. Wieloch, D. Benchekroun, E. Bisquer, A. Chabane, A. Demeyer,
M. Charvet, B. Cheynis, E. Gerlic, A. Giorni, D. Guinet, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres,
M. Stern, L. Vagneron, and J. Viano, Intermediate velocity source of intermediate-mass fragments in the
40
[4]
Ca +
40
Ca reaction at Elab = 35 MeV/nucleon,
Physical Review C, vol. 57, pp. 17711777, 1998.
P. Pawªowski, D. Benchekroun, E. Bisquer, J. Brzychezyk, A. Chabane, M. Charvet, B. Cheynis, A. Cole,
A. Demeyer, P. Desesquelles, W. Gawlikowicz, E. Gerlic, A. Giorni, K. Grotowski, D. Guinet, P. Hachaj,
D. Heuer, P. Lautesse, L. Lebreton, A. Lleres, S. Micek, R. Planeta, Z. Sosin, M. Stern, L. Vagneron,
J. Viano, A. Wieloch, P. P., and et al., Characterization of reaction mechanisms in the
reaction at Elab = 35 MeV/nucleon,
[5]
P. Pawªowski,
40
Zeitschrift fur Physik A, vol. 357, pp. 387398, 1997.
Ca +
40
Ca
J. Brzychczyk, D. Benchekroun, E. Bisquer, P. Burzynski, A. Chabane, M. Charvet,
B. Cheynis, A. Cole, A. Demeyer, P. Desesquelles, W. Gawlikowicz, E. Gerlic, A. Giorni, K. Grotowski,
D. Guinet, P. Hachaj, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres, S. Micek, R. Planeta, Z. Sosin,
M. Stern, L. Vagneron, J. Viano, and A. Wieloch, 40
Ca +
40
Ca reaction at Elab =35 MeV nucleon :
lters and signatures to distinguish nearly central from peripheral collisions,
Physical Review C,
vol. 54,
pp. R10R14, 1996.
[6] P.
Hachaj,
J.
Brzychczyk,
A.
Cole,
P.
Desesquelles,
W.
Gawlikowicz,
K.
Grotowski,
S.
Micek,
P. Pawªowski, R. Planeta, Z. Sosin, A. Wieloch, D. Benchekroun, E. Bisquer, A. Chabane, A. Demeyer,
M. Charvet, B. Cheynis, E. Gerlic, A. Giorni, D. Guinet, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres,
M. Stern, L. Vagneron, and J. Viano, Studying binary collisions with the
35 MeV/nucleon,
Acta Physica Polonica B, vol. 29, p. 369, 1998.
40
Ca +
40
Ca reaction at Elab =
[7] R. Planeta, W. Gawlikowicz, K. Grotowski, J. Brzychczyk, T. Ciszek, A. Cole, P. Desesquelles, S. Micek,
P. Pawªowski, Z. Sosin, A. Wieloch, D. Benchekroun, E. Bisquer, A. Chabane, M. Charvet, B. Cheynis,
A. Demeyer, E. Gerlic, A. Giorni, D. Guinet, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres, M. Stern,
L. Vagneron, and J. Viano, Formation and decay of hot nuclei in heavy ion collisions,
Polonica B, vol. 31, pp. 14791488, 2000.
[8] W. Gawlikowicz, R. Planeta, K. Grotowski, J. Brzychczyk, P. Hachaj, S. Micek,
Acta Physica
P. Pawªowski, Z. Sosin,
A. Wieloch, P. Desesquelles, A. Cole, A. Chabane, M. Charvet, A. Giorni, D. Heuer, A. Lleres, J. Viano,
D. Benchekroun, E. Bisquer, B. Cheynis, A. Demeyer, E. Gerlic, D. Guinet, P. Lautesse, L. Lebreton,
M. Stern, and L. Vagneron, PLF fragmentation in the
Physics A, vol. 681, pp. 295c298c, 2001.
40
Ca +
40
Ca reaction at 35 MeV/nucleon,
[9] R. Planeta, Z. Sosin, P. Hachaj, T. Ciszek, W. Gawlikowicz, K. Grotowski, S. Micek,
Nuclear
P. Pawªowski,
A. Cole, D. Benchekroun, E. Bisquer, A. Chabane, M. Charvet, B. Cheynis, A. Demeyer, P. Desesquelles,
E. Gerlic, A. Giorni, D. Guinet, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres, M. Stern, L. Vagneron,
and J. Viano, The intermediate velocity source in the
Polonica B, vol. 32, pp. 30793097, 2001.
40
Ca +197 Au
reaction at 35 AMeV,
Acta Physica
[10] R. Planeta, W. Gawlikowicz, A. Wieloch, J. Brzychczyk, T. Viszek, A. Cole, P. Desesquelles, K. Grotowski,
P. Hachaj, S. Micek,
P. Pawªowski,
Z. Sosin, D. Benchekroun, E. Bisquer, A. Chabane, M. Charvet,
B. Cheynis, A. Demeyer, E. Gerlic, A. Giorni, D. Guinet, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres,
M. Stern, L. Vagneron, and J. Viano, I. The properties of hot Ca-like fragments from the
reaction at 35 AMeV,
European Physical Journal A, vol. 11, pp. 297304, 2001.
[11] Z. Sosin, R. Planeta, T. Ciszek, J. Brzychczyk, W. Gawlikowicz, K. Grotowski, S. Micek,
40
Ca +40 Ca
P. Pawªowski,
A. Wieloch, A. Cole, D. Benchekroun, E. Bisquer, A. Chabane, M. Charvet, B. Cheynis, A. Demeyer,
P. Desesquelles, E. Gerlic, A. Giorni, D. Guinet, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres, M. Stern,
L. Vagneron, and J. Viano, II. The intermediate velocity source in the
AMeV,
European Physical Journal A, vol. 11, pp. 305310, 2001.
19 / 34
40
Ca +40 Ca
reaction at Elab = 35
Piotr Pawªowski Summary of professional ...
[12]
COMPLETE LIST OF PUBLICATIONS
P. Pawªowski, B. Borderie, G. Auger, C. Bacri, N. Bellaize, F. Bocage, R. Bougault, R. Brou, P. Buchet,
J. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore, D. Durand, J. D. Frankland,
E. Galichet, E. Genouin-Duhamel, E. Gerlic, D. Guinet, P. Lautesse, J. Laville, J. Lecolley, R. Legrain,
N. Le Neindre, O. Lopez, M. Louvel, A.-M. Maskay, L. Nalpas, A. Nguyen, M. Parlog, J. Peter, E. Plagnol,
M. Rivet, E. Rosato, F. Saint-Laurent, S. Salou, J. Steckmeyer, M. Stern, G. Tabacaru, B. Tamain,
L. Tassan-Got, O. Tirel, E. Vient, C. Volant, and J. Wieleczko, Prompt light particle emission in the
36
[13]
Ar+
58
Ni reaction at 95 MeV/nucleon,
European Physical Journal A, vol. 9, pp. 371383, 2000.
P. Pawªowski, Finite-size eects in phase transition of asymmetric nuclear matter, Physical Review C,
vol. 65, pp. 0446151046156, 2002.
[14] B. Borderie, G. Tabacaru, P. Chomaz, M. Colonna, A. Guarnera, M. Parlog, M. F. Rivet, G. Auger,
C. Bacri, N. Bellaize, R. Bougault, B. Bouriquet, R. Brou, P. Buchet, A. Chbihi, J. Colin, A. Demeyer,
E. Galichet, E. Gerlic, D. Guinet, S. Hudan, P. Lautesse, F. Lavaud, J.-L. Laville, J.-F. Lecolley, C. Leduc,
R. Legrain, N. Le Neindre, O. Lopez, M. Louvel, A.-M. Maskay, J. Normand,
P. Pawªowski, E. Rosato,
F. Saint-Laurent, J. Steckmeyer, B. Tamain, L. Tassan-Got, E. Vient, J.-P. Wieleczko, and M. F. Rivet,
Evidence for Spinodal Decomposition in Nuclear Multifragmentation,
Physical Review Letters,
vol. 86,
pp. 32523255, 2001. arXiv:nucl-ex/0103009.
[15] B. Borderie, R. Bougault, P. Chomaz, A. Chbihi, M. Colonna, M. Di Toro, J. Frankland, E. Galichet,
F. Gulminelli, D. Guinet, P. Lautesse, F. Lavaud, O. Lopez, M. Parlog,
P. Pawªowski, M. Rivet, E. Rosato,
J. Steckmeyer, G. Tabacaru, B. Tamain, E. Vient, M. Vigilante, and J. Wieleczko, Multifragmentation
and asymmetric nuclear matter in the Fermi energy region. GANIL experiment proposal, 2000.
[16] M. Senoville, N. Achouri, F. Delaunay, J. Gibelin, B. Laurent, X. Ledoux, F. Marques, N. Orr, C. Fontbonne, B. Carniol, T. Chaventre, D. Cussol, D. Etasse, J. Fontbonne, J. Harang, J. Hommet, H. Plard,
J. Poincheval, O. Lopez, N. Le Neindre, B. Borderie, M. Rivet, L. Tassan-Got,
P. Pawªowski, G. Tabacaru,
A. Brauning-Demian, J. Perronnel, E. Balanzat, H. Hamrita, G. Randisi, D. Dumitriu, D. Fluerasu, Y. Thimont, M. Parlog, and the INDRA and FAZIA collaborations, Neutron and charged particle identication
by means of various detectors. Proceedings of IWM2011 International Workshop on Multifragmentation
and related topics, 2012.
[17] F. Gagnon-Moisan, E. Galichet, M.-F. Rivet, B. Borderie, M. Colonna, R. Roy, G. Ademard, M. Boisjoli,
E. Bonnet, R. Bougault, A. Chbihi, J. D. Frankland, D. Guinet, P. Lautesse, E. Legouée, N. Le Neindre,
L. Manduci, P. Marini, P. Napolitani, M. Pârlog,
P. Pawªowski,
isospin eects in central heavy-ion collisions at Fermi energies,
E. Rosato, and M. Vigilante, New
Phys. Rev. C, vol. 86, p. 044617, Oct 2012.
[18] G. Ademard, B. Borderie, A. Chbihi, O. Lopez, P. Napolitani, M. F. Rivet, M. Boisjoli, E. Bonnet,
R. Bougault, J. D. Frankland, E. Galichet, D. Gruyer, D. Guinet, M. Kabtoul, G. Lehaut, P. Lautesse,
M. La Commara, N. Le Neindre, P. Marini, M. Parlog,
P. Pawªowski, E. Rosato, R. Roy, G. Spadaccini,
E. Vient, M. Vigilante, J. P. Wieleczko, and I. Collaboration, Isospin eects and symmetry energy studies
with INDRA,
[19]
European Physical Journal A, vol. 50, no. 2, 2014.
P. Pawªowski and A. Szczurek, Neutron spatial distribution in nuclei and the impact-parameter dependence of the
π+ − π−
asymmetry in heavy-ion collisions,
Physical Review C,
vol. 70, no. 4, p. 044908,
2004.
[20] C. Senti, P. Adrich, T. Aumann, C. O. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano, A. S. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, M. De Napoli, J. E. Ducret, H. Emling,
J. D. Frankland, M. Hellstroem, D. Henzlova, G. Imme, I. Iori, H. Johansson, K. Kezzar, A. Lafriakh, A. L.
Fevre, E. L. Gentil, Y. Leifels, J. Luehning, J. Lukasik, W. G. Lynch, U. Lynen, Z. Majka, M. Mocko,
W. F. J. Muller, A. Mykulyak, H. Orth, A. N. Otte, R. Palit,
P. Pawªowski, A. Pullia, G. Raciti, E. Rapis-
arda, H. Sann, C. Schwarz, H. Simon, K. Suemmerer, W. Trautmann, M. B. Tsang, G. Verde, C. Volant,
M. Wallace, H. Weick, J. Wiechula, A. Wieloch, B. Zwieglinski, C. Bacri, A. Botvina, J.-E. Ducret, J. Frankland, A. L. Fevre, E. L. Gentil, W. Lynch, W. Muller, A. Otte, and M. Tsang, Isotopic Dependence of
the Nuclear Caloric Curve,
Physical Review Letters, vol. 102, p. 152701, 2009.
arXiv:0903.1772.
[21] W. Trautmann, M. Chartier, Y. Leifels, R. C. Lemmon, Q. Li, J. Lukasik, A. Pagano,
P. Russotto, and P. Wu, Dierential neutron-proton squeeze-out,
Physics, vol. 62, pp. 425426, 2009.
P. Pawªowski,
Progress in Particle and Nuclear
[22] W. Trautmann, P. Adrich, T. Aumann, C. O. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano,
A. S. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, M. De Napoli, J. E. Ducret,
H. Emling, J. D. Frankland, M. Hellstroem, D. Henzlova, G. Imme, I. Iori, H. Johansson, K. Kezzar,
A. Lafriakh, A. Le Fevre, E. Le Gentil, Y. Leifels, J. Luehning, J. Lukasik, W. G. Lynch, U. Lynen,
Z. Majka, M. Mocko, W. F. J. Muller, A. Mykulyak, H. Orth, A. N. Otte, R. Palit,
20 / 34
P. Pawªowski,
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
A. Pullia, G. Raciti, E. Rapisarda, H. Sann, C. Schwarz, C. Senti, H. Simon, K. Suemmerer, M. B.
Tsang, G. Verde, C. Volant, M. Wallace, H. Weick, J. Wiechula, A. Wieloch, and B. Zwieglinski, Isotopic
dependence of the caloric curve,
Progress in Particle and Nuclear Physics, vol. 62, pp. 407412, 2009.
[23] W. Trautmann, S. Bianchin, A. S. Botvina, A. Le Fevre, Y. Leifels, C. Senti, N. Buyukcizmeci, R. Ogul,
I. N. Mishustin, M. Chartier, P. Z. Wu, R. C. Lemmon, Q. Li, J. Lukasik,
P. Russotto, and C. Aladin, The symmetry energy in nuclear reactions,
Physics E, vol. 19, no. 8-9, pp. 16531663, 2010.
P. Pawªowski,
A. Pagano,
International Journal of Modern
[24] W. Trautmann, P. Adrich, T. Aumann, C. O. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano,
A. S. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, M. De Napoli, J. E. Ducret,
H. Emling, J. D. Frankland, M. Hellstroem, D. Henzlova, G. Imme, I. Iori, H. Johansson, K. Kezzar,
A. Lafriakh, A. L. Fevre, E. L. Gentil, Y. Leifels, J. Luehning, J. Lukasik, W. G. Lynch, U. Lynen,
Z. Majka, M. Mocko, W. F. J. Muller, A. Mykulyak, H. Orth, A. N. Otte, R. Palit,
P. Pawªowski,
A. Pullia, G. Raciti, E. Rapisarda, H. Sann, C. Schwarz, C. Senti, H. Simon, K. Suemmerer, M. B.
Tsang, G. Verde, C. Volant, M. Wallace, H. Weick, J. Wiechula, A. Wieloch, B. Zwieglinski, C. Bacri,
A. Botvina, J.-E. Ducret, J. Frankland, A. L. Fevre, E. L. Gentil, W. Lynch, W. Muller, A. Otte, and
M. Tsang, N/Z Dependence of Projectile Fragmentation,
International Journal of Modern Physics E,
vol. 17, pp. 18381849, 2008. arXiv:0711.4462.
[25] C. Senti, M. De Napoli, P. Adrich, T. Aumann, C. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano,
A. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, J.-E. Ducret, H. Emling, J. Frankland, M. Hellström, D. Henzlova, K. Kezzar, G. Immé, I. Iori, H. Johansson, A. Lafriakh, A. Le Fèvre,
E. Le Gentil, Y. Leifels, W. Lynch, J. Luhning, J. Lukasik, U. Lynen, Z. Majka, M. Mocko, W. Muller,
A. Mykulyak, H. Orth, A. Otte, R. Palit,
P. Pawªowski,
A. Pullia, G. Raciti, E. Rapisarda, H. Sann,
C. Schwarz, H. Simon, K. Summerer, W. Trautmann, C. Volant, M. Wallace, H. Weick, J. Wiechula,
A. Wieloch, and B. Zwieglinski, Gross Properties and Isotopic Phenomena in Spectator Fragmentation,
Nuclear Physics A, vol. 787, pp. 627c632c, 2007.
[26] W. Trautmann, A. Botvina, J. Brzychczyk, A. Le Fevre,
P. Pawªowski, C. Senti, and I. c. the ALADIN,
International Workshop on Multifragmentation and related topics (R. Bougault, A. Pagano, S. Pirrone, M.-F. Rivet, and F. Rizzo, eds.), vol. 91
of Conference Proceedings, pp. 157166, Italian Physical Society, 2005.
Isoscaling and the symmetry energy in spectator fragmentation, in
[27]
P. Pawªowski,
J. Brzychczyk, J. Cibor, A. Wieloch, S. Bianchin, A. Le Fevre, J. Lukasik, C. Senti,
International
Workshop on Multifragmentation and related topics (B. Borderie, J. Frankland, A. Pagano, S. Pirrone, and
F. Rizzo, eds.), vol. 95 of Conference Procedings, pp. 233239, Italian Physical Society, 2007.
W. Trautmann, and A. . Collaboration, Study of neutron emission using LAND detector, in
[28] W. Trautmann, A. Botvina, J. Brzychczyk, N. Buyukcizmeci, I. Mishustin,
oration, Neutrons from multifragmentation reactions, in
P. Pawªowski, and A. Collab-
XLIX International Winter Meeting on Nuclear
Physics, Bormio, p. PoS(Bormio 2011)018, Proceedings of Science, 2011.
[29] E. Le Gentil, T. Aumann, C. O. Bacri, J. Benlliure, S. Bianchin, M. Bohmer, A. Boudard, J. Brzychczyk,
E. Casarejos, M. Combet, L. Donadille, J. E. Ducret, M. Fernandez-Ordonez, R. Gernhauser, H. Johansson, K. Kezzar, T. Kurtukian-Nieto, A. Lafriakh, F. Lavaud, A. L. Fèvre, S. Leray, J. Luhning, J. Lukasik,
U. Lynen, W. F. Muller,
P. Pawªowski, S. Pietri, F. Rejmund, C. Schwarz, C. Senti, H. Simon, W. Traut-
mann, C. Volant, O. Yordanov, C. Bacri, J. Ducret, A. L. Fèvre, and W. Muller, Coincidence measurement
of residues and light particles in the reaction
Review Letters, vol. 100, p. 022701, 2008.
[30]
56
Fe + p
at 1 GeV per nucleon with SPALADIN,
Physical
arXiv:0708.1127.
P. Pawªowski, J. Brzychczyk, Y. Leifels, W. Trautmann, P. Adrich, T. Aumann, C. O. Bacri, T. Barczyk,
R. Bassini, S. Bianchin, C. Boiano, K. Boretzky, A. Boudard, A. Chbihi, J. Cibor, B. Czech, M. De Napoli,
J.-E. Ducret, H. Emling, J. D. Frankland, T. Gorbinet, M. Hellstrom, D. Henzlova, S. Hlavac, J. Imme,
I. Iori, H. Johansson, K. Kezzar, S. Kupny, A. Lafriakh, A. Le Fevre, E. Le Gentil, S. Leray, J. Lukasik,
J. Luhning, W. G. Lynch, U. Lynen, Z. Majka, M. Mocko, W. F. J. Muller, A. Mykulyak, H. Orth,
A. N. Otte, R. Palit, S. Panebianco, A. Pullia, G. Raciti, E. Rapisarda, D. Rossi, M.-D. Salsac, H. Sann,
C. Schwarz, H. Simon, C. Senti, K. Summerer, M. B. Tsang, G. Verde, M. Veselsky, C. Volant, M. Wallace,
H. Weick, J. Wiechula, A. Wieloch, and B. Zwieglinski, Neutron recognition in LAND detector for large
neutron multiplicity,
Nucl. Instr. and Meth. A, vol. 694, p. 47, 2012.
arXiv:1203.5608.
[31] T. Gorbinet, T. Aumann, S. Bianchin, O. Borodina, A. Boudard, C. Caesar, E. Casajeros, B. Czech, J.-E.
Ducret, S. Hlavac, N. Kurz, C. Langer, T. Le Bleis, S. Leray, J. Lukasik,
P. Pawªowski, S. Pietri, M.-D.
Salsac, H. Simon, M. Veselsky, Y. Ayyad, and O. Yordanov, Study of the spallation of
with
1
H and
12
C at 1 GeV per nucleon,
Physica Scripta, vol. t150, p. 014015, 2012.
21 / 34
136
Xe in collision
Piotr Pawªowski Summary of professional ...
[32]
COMPLETE LIST OF PUBLICATIONS
P. Pawªowski and Z. Sosin, Dynamic clustering model for applications in nuclear reaction physics,
in
International Workshop on Multifragmentation and related topics (J. Frankland, A. Pagano, S. Pirrone,
M.-F. Rivet, and F. Rizzo, eds.), vol. 101 of Conference Procedings, p. 300, Italian Physical Society, 2009.
[33] J.-E. Ducret, P. Legou, J. Lukasik, A. Boudard, M. Combet, B. Czech, R. Durand, T. Gorbinet, P. Le Bourlout, S. Leray, V. Matousek, F. Nizery,
P. Pawªowski, M.-D. Salsac, and O. Yordanov, Heavy-ion test
of detectors with conventional and resistive Micromegas used in TPC conguration,
and Methods A, vol. 628, no. 1, pp. 166171, 2011.
Nuclear Instruments
[34] P. Russotto, P. Z. Wu, M. Zoric, M. Chartier, Y. Leifels, R. C. Lemmon, Q. Li, J. Lukasik, A. Pagano,
P. Pawªowski, and W. Trautmann, Symmetry energy from elliptic ow in 197 Au+197 Au, Physics Letters
B, vol. 697, no. 5, pp. 471476, 2011.
[35] J. Lukasik,
P. Pawªowski,
A. Budzanowski, B. Czech, I. Skwirczynska, J. Brzychczyk, M. Adamczyk,
S. Kupny, P. Lasko, Z. Sosin, A. Wieloch, M. Kis, Y. Leifels, and W. Trautmann, KRATTA, a versatile
triple telescope array for charged reaction products,
Nuclear Instruments and Methods A, vol. 709, pp. 120
128, MAY 1 2013.
[36] R. Reifarth, S. Altstadt, K. Göbel, T. Heftrich, M. Heil, A. Koloczek, C. Langer, R. Plag, M. Pohl,
K. Sonnabend, M. Weig and, T. Adachi, F. Aksouh, J. Al-Khalili, S. AlGarawi, M.and AlGhamdi, G. Alkhazov, N. Alkhomashi, H. Alvarez-Pol, R. Alvarez-Rodriguez, V. Andreev, B. Andrei, L. Atar, T. Aumann,
V. Avdeichikov, C. Bacri, S. Bagchi, C. Barbieri, S. Beceiro, C. Beck, C. Beinrucker, G. Belier, D. Bemmerer, M. Bendel, J. Benlliure, G. Benzoni, R. Berjillos, D. Bertini, C. Bertulani, S. Bishop, N. Blasi,
T. Bloch, Y. Blumenfeld, A. Bonaccorso, K. Boretzky, A. Botvina, A. Boudard, P. Boutachkov, I. Boztosun, A. Bracco, S. Brambilla, J. Briz Monago, M. Caamano, C. Caesar, F. Camera, E. Casarejos,
W. Catford, J. Cederkall, B. Cederwall, M. Chartier, A. Chatillon, M. Cherciu, L. Chulkov, P. ColemanSmith, D. Cortina-Gil, F. Crespi, R. Crespo, J. Cresswell, M. Csatlós, F. Déchery, B. Davids, T. Davinson,
V. Derya, P. Detistov, P. Diaz Fernandez, D. DiJulio, S. Dmitry, D. Doré, J. Duenas, E. Dupont, P. Egelhof,
I. Egorova, Z. Elekes, J. Enders, J. Endres, S. Ershov, O. Ershova, B. Fernandez-Dominguez, A. Fetisov,
E. Fiori, A. Fomichev, M. Fonseca, L. Fraile, M. Freer, J. Friese, M. G. Borge, D. Galaviz Redondo, S. Gannon, U. Garg, I. Gasparic, L. Gasques, B. Gastineau, H. Geissel, R. Gernhäuser, T. Ghosh, M. Gilbert,
J. Glorius, P. Golubev, A. Gorshkov, A. Gourishetty, L. Grigorenko, J. Gulyas, M. Haiduc, F. Hammache,
M. Harakeh, M. Hass, M. Heine, A. Hennig, A. Henriques, R. Herzberg, M. Holl, A. Ignatov, A. Ignatyuk,
S. Ilieva, M. Ivanov, N. Iwasa, B. Jakobsson, B. Johansson, H.and Jonson, P. Joshi, A. Junghans, B. Jurado, G. Körner, N. Kalantar, R. Kanungo, A. Kelic-Heil, K. Kezzar, E. Khan, A. Khanzadeev, O. Kiselev,
M. Kogimtzis, D. Körper, S. Kräckmann, T. Kröll, R. Krücken, A. Krasznahorkay, J. Kratz, D. Kresan,
T. Krings, A. Krumbholz, S. Krupko, R. Kulessa, S. Kumar, N. Kurz, E. Kuzmin, M. Labiche, K. Langanke, I. Lazarus, T. Le Bleis, C. Lederer, A. Lemasson, R. Lemmon, V. Liberati, Y. Litvinov, B. Löher,
J. Lopez Herraiz, G. Münzenberg, J. Machado, E. Maev, K. Mahata, D. Mancusi, J. Marganiec, M. Martinez Perez, V. Marusov, D. Mengoni, B. Million, V. Morcelle, O. Moreno, A. Movsesyan, E. Nacher,
M. Naja, T. Nakamura, F. Naqvi, E. Nikolski, T. Nilsson, C. Nociforo, P. Nolan, B. Novatsky, G. Nyman, A. Ornelas, R. Palit, S. P andit, V. Panin, C. Paradela, V. Parkar, S. Paschalis,
P. Pawªowski,
A. Perea, J. Pereira, C. Petrache, M. Petri, S. Pickstone, N. Pietralla, S. Pietri, Y. Pivovarov, P. Potlog,
A. Prokoev, G. Rastrepina, T. Rauscher, G. Ribeiro, M. Ricciardi, A. Richter, C. Rigollet, K. Riisager, A. Rios, C. Ritter, T. Rodríguez Frutos, J. Rodriguez Vignote, M. Röder, C. Romig, D. Rossi,
P. Roussel-Chomaz, P. Rout, S. Roy, P. Söderström, M. Saha Sarkar, S. Sakuta, M. Salsac, J. Sampson,
J. Sanchez del Rio Saez, J. Sanchez Rosado, S. Sanjari, P. Sarriguren, A. Sauerwein, D. Savran, C. Scheidenberger, H. Scheit, S. Schmidt, C. Schmitt, L. Schnorrenberger, P. Schrock, R. Schwengner, D. Seddon,
B. Sherrill, A. Shrivastava, S. Sidorchuk, J. Silva, H. Simon, E. Simpson, P. Singh, D. Slobodan, D. Sohler,
M. Spieker, D. Stach, E. Stan, M. Stanoiu, S. Stepantsov, P. Stevenson, F. Strieder, L. Stuhl, T. Suda,
K. Sümmerer, B. Streicher, J. Taieb, M. Takechi, I. Tanihata, J. Taylor, O. Tengblad, G. Ter-Akopian,
S. Terashima, P. Teubig, R. Thies, M. Thoennessen, T. Thomas, J. Thornhill, G. Thungstrom, J. Timar,
Y. Togano, U. Tomohiro, T. Tornyi, J. Tostevin, C. Townsley, W. Trautmann, T. Trivedi, S. Typel,
E. Uberseder, J. Udias, T. Uesaka, L. Uvarov, Z. Vajta, P. Velho, V. Vikhrov, M. Volkn andt, V. Volkov,
P. von Neumann-Cosel, M. von Schmid, A. Wagner, F. Wamers, H. Weick, D. Wells, L. Westerberg,
O. Wiel and, M. Wiescher, C. Wimmer, K. Wimmer, J. S. Wineld, M. Winkel, P. Woods, R. Wyss,
D. Yakorev, M. Yavor, J. Zamora Cardona, I. Zartova, T. Zerguerras, I. Zgura, A. Zhdanov, M. Zhukov,
M. Zieblinski, A. Zilges, and K. Zuber, Nuclear astrophysics with radioactive ions at FAIR. arXiv:astroph/1310.1632, Oct. 2013.
[37] D. Dore, C. Volant, J. Cugnon, R. Legrain, G. Auger, C.-O. Bacri, N. Bellaize, B. Borderie, R. Bougault,
B. Bouriquet, R. Brou, J.-P. Buchet, J.-L. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, A. Demeyer,
D. Durand, J.-D. Frankland, E. Galichet, E. Genouin-Duhamel, E. Gerlic, D. Guinet, B. Guiot, S. Hudan,
22 / 34
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
P. Lautesse, F. Lavaud, J.-F. Laville, J.-F. Lecolley, C. Leduc, N. Le Neindre, O. Lopez, M. Louvel, A.-M.
Maskay, L. Nalpas, J. Normand,
P. Pawªowski, M. Parlog, E. Plagnol, M.-F. Rivet, E. Rosato, F. Saint-
Laurent, J.-C. Steckmeyer, G. Tabacaru, B. Tamain, L. Tassan-Got, E. Vient, J.-P. Wileczko, C.-O. Bacri,
J.-P. Buchet, J.-L. Charvet, J.-D. Frankland, J.-F. Laville, J.-F. Lecolley, M.-F. Rivet, J.-C. Steckmeyer,
and J.-P. Wileczko, Properties of light particles produced in Ar + Ni collisions at 95 A.MeV : evaporation
versus prompt emission,
Physical Review C, vol. 63, pp. 034612103461210, 2001.
[38] Z. Wu, M. Chartier, R. C. Lemmon, Y. Leifels, Q. Li, J. Lukasik, A. Pagano,
P. Pawªowski, P. Russotto,
International
Workshop on Multifragmentation and related topics (J. Frankland, A. Pagano, S. Pirrone, M.-F. Rivet, and
F. Rizzo, eds.), vol. 101 of Conference Procedings, p. 86, Italian Physical Society, 2009.
and W. Trautmann, Analysis of neutron and hydrogen ow in heavy-ion collisions, in
[39] R. Ogul, A. S. Botvina, U. Atav, N. Buyukcizmeci, I. N. Mishustin, P. Adrich, T. Aumann, C. O. Bacri,
T. Barczyk, R. Bassini, S. Bianchin, C. Boiano, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech,
M. De Napoli, J. E. Ducret, H. Emling, J. D. Frankland, M. Hellstroem, D. Henzlova, G. Imme, I. Iori,
H. Johansson, K. Kezzar, A. Lafriakh, A. Le Fevre, E. Le Gentil, Y. Leifels, J. Luehning, J. Lukasik,
W. G. Lynch, U. Lynen, Z. Majka, M. Mocko, W. F. J. Muller, A. Mykulyak, H. Orth, A. N. Otte,
R. Palit,
P. Pawªowski, A. Pullia, G. Raciti,
E. Rapisarda, H. Sann, C. Schwarz, C. Senti, H. Simon,
K. Suemmerer, W. Trautmann, M. B. Tsang, G. Verde, C. Volant, M. Wallace, H. Weick, J. Wiechula,
A. Wieloch, and B. Zwieglinski, Isospin-dependent multifragmentation of relativistic projectiles,
Review C, vol. 83, no. 2, p. 024608, 2011.
[40] S. Kupny, J. Brzychczyk, J. Lukasik,
P. Pawªowski,
and ASY-EOS Collaboration, Charged Particle
Flow Measured with the KRATTA Detector in the ASY-EOS Experiment, in
Multi facets of Eos and Clustering IWM-EC 2014,
Physical
nternational Workshop on
Conference Procedings, Italian Physical Society, 2014.
to be published.
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[42]
P. Pawªowski et al., Neutrons from projectile fragmentation at 600 MeV/nucleon. In preparation, 2014.
+
−
A. Szczurek and P. Pawªowski, π − π asymmetry and the neutron skin in heavy nuclei, International
Journal of Modern Physics A, vol. 20, no. 2-3, pp. 618621, 2005.
[43] R. Ogul, A. S. Botvina, U. Atav, N. Buyukcizmeci, I. N. Mishustin, P. Adrich, T. Aumann, C. O. Bacri,
T. Barczyk, R. Bassini, S. Bianchin, C. Boiano, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech,
M. De Napoli, J. E. Ducret, H. Emling, J. D. Frankland, M. Hellstroem, D. Henzlova, G. Imme, I. Iori,
H. Johansson, K. Kezzar, A. Lafriakh, A. Le Fevre, E. Le Gentil, Y. Leifels, J. Luehning, J. Lukasik,
W. G. Lynch, U. Lynen, Z. Majka, M. Mocko, W. F. J. Muller, A. Mykulyak, H. Orth, A. N. Otte,
R. Palit,
P. Pawªowski, A. Pullia, G. Raciti,
E. Rapisarda, H. Sann, C. Schwarz, C. Senti, H. Simon,
K. Suemmerer, W. Trautmann, M. B. Tsang, G. Verde, C. Volant, M. Wallace, H. Weick, J. Wiechula,
A. Wieloch, and B. Zwieglinski, Isospin-dependent multifragmentation of relativistic projectiles (vol 83,
artn no 024608, 2011),
Physical Review C, vol. 85, no. 1, 2012.
[44] A.-M. Maskay, P. Lautesse, P. Desesquelles, E. Gerlic, J.-L. Laville, G. Tabacaru, B. Borderie, M. Rivet,
P. Chomaz, M. Colonna, J. Frankland, A. Guarnera, M. Parlog, B. Bouriquet, A. Chbihi, S. Salou, J. Wieleczko, G. Auger, C. Bacri, N. Bellaize, R. Bougault, R. Brou, P. Buchet, J. Charvet, J. Colin, D. Cussol,
R. Dayras, A. Demeyer, D. Dore, D. Durand, E. Galichet, B. Guiot, S. Hudan, D. Guinet, F. Lavaud,
J. Lecolley, C. Leduc, R. Legrain, N. Le Neindre, O. Lopez, M. Louvel, J. Lukasik, L. Nalpas, J. Normand,
P. Pawªowski, E. Plagnol, E. Rosato, F. Saint-Laurent, J. Steckmeyer, B. Tamain, L. Tassan-Got,
E. Vient, C. Volant, J.-L. Laville, C. Bacri, M. A.-M., and et al., Ni+Ni collisions at 32 MeV/u: experimental insight with the INDRA multidetector, in
of the century
Bologna 2000. Structure of the nucleus at the dawn
(G. Bonsignori, M. Bruno, A. Ventura, and D. Vretenar, eds.), vol. 1, pp. 363366, World
Scientic, 2001.
[45] A. Buta, J. Steckmeyer, G. Auger, C. Bacri, N. Bellaize, B. Borderie, R. Bougault, B. Bouriquet, J. Charvet,
A. Chbihi, J. Colin, D. Cussol, R. Dayras, N. De Cesare, A. Demeyer, D. Dore, D. Durand, J. Frankland,
E. Galichet, E. Gerlic, D. Guinet, B. Guiot, S. Hudan, G. Lanzalone, P. Lautesse, F. Lavaud, J. Lecolley,
R. Legrain, N. Le Neindre, O. Lopez, L. Manduci, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
E. Plagnol, M. Rivet, E. Rosato, R. Roy, G. Tabacaru, B. Tamain, E. Vient, M. Vigilante, C. Volant,
J. Wieleczko, B. A.M., and et al., Towards an unambiguous determination of the excitation energy of the
projectile in heavy-ion reactions ?, in
International Workshop on Multifragmentation and related topics,
pp. 192196, Instituto Nazionale di Fisica Nucleare, 2002.
[46] G. Tabacaru, M.-F. Rivet, B. Borderie, M. Pârlog, B. Bouriquet, A. Chbihi, J. Frankland, J.-P. Wieleczko,
E. Bonnet, R. Bougault, R. Dayras, E. Galichet, D. Guinet, P. Lautesse, N. Le Neindre, O. Lopez, L. Manduci, L. Nalpas,
P. Pawªowski,
E. Rosato, R. Roy, S. Salou, B. Tamain, E. Vient, M. Vigilante, and
23 / 34
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
C. Volant, Multifragmentation of very heavy nuclear systems (III): fragment velocity correlations and
event topology at freeze-out,
Nuclear Physics A, vol. 764, pp. 371386, 2006.
arXiv:nucl-ex/0508033.
[47] R. Planeta, W. Gawlikowicz, A. Wieloch, J. Brzychczyk, T. Ciszek, A. Cole, P. Desesquelles, K. Grotowski,
P. Hachaj, S. Micek,
P. Pawªowski,
Z. Sosin, D. Benchekroun, E. Bisquer, A. Chabane, M. Charvet,
B. Cheynis, A. Demeyer, E. Gerlic, A. Giorni, D. Guinet, D. Heueur, P. Lautesse, L. Lebreton, A. Lleres,
M. Stern, L. Vagneron, J.-B. Viano, and J.-B. Viano, Properties of projectile-like fragments from the
+
40
40
Ca
Ca reaction at 35 MeV/nucleon. 1999.
[48] D. Dore, C. Volant, J. Cugnon, R. Legrain, G. Auger, C. Bacri, N. Bellaize, B. Borderie, R. Bougault,
B. Bouriquet, R. Brou, P. Buchet, J. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, A. Demeyer,
D. Durand, J. D. Frankland, E. Galichet, E. Genouin-Duhamel, E. Gerlic, D. Guinet, B. Guiot, S. Hudan,
P. Lautesse, F. Lavaud, J. Laville, J. Lecolley, C. Leduc, N. Le Neindre, O. Lopez, M. Louvel, A.-M. Maskay,
L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
J. Peter, E. Plagnol, M. Rivet, E. Rosato, F. Saint-
Laurent, J. Steckmeyer, G. Tabacaru, B. Tamain, L. Tassan-Got, E. Vient, J. Wieleczko, P. Buchet,
9th
International Conference on Nuclear Reaction Mechanisms, Varenna (E. Gadioli, ed.), vol. 115 of Ricerca
Scientica ed Educazione Permanente Supplemento, pp. 499507, Universita Degli Studi Di Milano, 2000.
J. D. Frankland, D. D., and et al., Role of nucleon-nucleon collisions in the Ar+Ni reactions, in
[49] A. Buta, J. Steckmeyer, G. Auger, C. Bacri, N. Bellaize, B. Borderie, R. Bougault, B. Bouriquet, J. Charvet,
A. Chbihi, J. Colin, D. Cussol, R. Dayras, N. De Cesare, A. Demeyer, D. Dore, D. Durand, J. Frankland,
E. Galichet, E. Gerlic, D. Guinet, B. Guiot, S. Hudan, G. Lanzalone, P. Lautesse, F. Lavaud, J. Lecolley,
R. Legrain, N. Le Neindre, O. Lopez, L. Manduci, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
E. Plagnol, M. Rivet, E. Rosato, R. Roy, G. Tabacaru, B. Tamain, E. Vient, M. Vigilante, C. Volant,
J. Wieleczko, B. A.M., and et al., Towards an unambiguous determination of the excitation energy of
the projectile in heavy-ion reactions ?, in
40th International Winter Meeting on Nuclear Physics, Bormio
Ricerca Scientica ed Educazione Permanente Supplemento,
(I. IIori and A. Moroni, eds.), vol. 119 of
pp. 217223, Universita degli Studi di Milano, 2002.
[50] J.-C. Steckmeyer, E. Genouin-Duhamel, E. Vient, J. Colin, D. Durand, G. Auger, C. Bacri, N. Bellaize, B. Borderie, R. Bougault, B. Bouriquet, R. Brou, P. Buchet, J.-L. Charvet, A. Chbihi, D. Cussol,
R. Dayras, N. De Cesare, A. Demeyer, D. Dore, J.-D. Frankland, E. Galichet, E. Gerlic, D. Guinet, S. Hudan, P. Lautesse, F. Lavaud, J.-L. Laville, J.-F. Lecolley, C. Leduc, R. Legrain, N. Le Neindre, O. Lopez,
M. Louvel, A.-M. Maskay, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
E. Plagnol, M.-F. Rivet,
E. Rosato, F. Saint-Laurent, G. Tabacaru, B. Tamain, L. Tassan-Got, O. Tirel, K. Turzo, M. Vigilante,
C. Volant, J.-P. Wileczko, J.-C. Steckmeyer, J.-L. Charvet, J.-D. Frankland, J.-L. Laville, J.-F. Lecolley,
M.-F. Rivet, J.-P. Wileczko, S. J.-C., and et al., Excitation energy and angular momentum of quasiprojectiles produced in the Xe + Sn collisions at incident energies between 25 and 50 MeV/nucleon,
Physics A, vol. 686, pp. 537567, 2001.
Nuclear
[51] E. Galichet, F. Gulminelli, D. C. R. Guinet, M. F. Rivet, J. F. Lecolley, R. Bougault, G. Auger, B. Borderie,
B. Bouriquet, A. Buta, J. L. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, D. Durand, J. D.
Frankland, B. Guiot, S. Hudan, P. Lautesse, F. Lavaud, N. Le Neindre, O. Lopez, L. Manduci, J. Marie,
L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski, E. Plagnol, E. Rosato, J. C. Steckmeyer, B. Tamain,
A. Van Lauwe, E. Vient, C. Volant, J. P. Wieleczko, and I. Collaboration, Charge density: A probe for
the nuclear interaction in microscopic transport models,
European Physical Journal A,
vol. 18, no. 1,
pp. 7586, 2003.
[52] M. De Napoli, C. Senti, S. Bianchin, A. Le Fèvre, J. Lukasik, W. Trautmann, P. Adrich, T. Aumann,
C. Bacri, T. Barczyk, R. Bassini, C. Boiano, A. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor,
B. Czech, J.-E. Ducret, H. Emling, J. Frankland, M. Hellström, D. Henzlova, K. Kezzar, G. Immè, I. Iori,
H. Johansson, A. Lafriakh, E. Le Gentil, Y. Leifels, W. Lynch, J. Luhning, U. Lynen, Z. Majka, M. Mocko,
W. Muller, A. Mykulyak, H. Orth, A. Otte, R. Palit,
P. Pawªowski, A. Pullia, G. Raciti, E. Rapisarda,
H. Sann, C. Schwarz, H. Simon, K. Summerer, M. Tsang, C. Volant, M. Wallace, H. Weick, J. Wiechula,
A. Wieloch, and B. Zwieglinski, Isotopic temperatures and symmetry energy in spectator fragmentation,
in
International Symposium on Physics of Unstable Nuclei
(D. Khoa, P. Egelhof, S. Gales, N. Van Giai,
and T. Motobayashi, eds.), Physics of Unstable Nuclei, pp. 123130, World Scientic, 2008.
[53] E. Vient, E. Genouin-Duhamel, J.-C. Steckmeyer, G. Auger, C. Bacri, N. Bellaize, B. Borderie, R. Bougault,
B. Bouriquet, A. Buta, J.-L. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore,
D. Durand, J.-D. Frankland, E. Galichet, E. Gerlic, D. Guinet, B. Guiot, S. Hudan, P. Lautesse, F. Lavaud,
J.-L. Laville, J.-F. Lecolley, R. Legrain, N. Le Neindre, O. Lopez, M. Louvel, L. Nalpas, J. Normand,
M. Parlog,
P. Pawªowski, E. Plagnol, M.-F. Rivet, E. Rosato, G. Tabacaru, B. Tamain, L. Tassan-Got,
K. Turzo, C. Volant, J.-P. Wieleczko, J.-C. Steckmeyer, C. Bacri, J.-L. Charvet, J.-D. Frankland, J.-L.
24 / 34
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
Laville, J.-F. Lecolley, M.-F. Rivet, and J.-P. Wieleczko, Can we really measure the internal energy of hot
nuclei with a 4π detection array ?,
Nuclear Physics A, vol. 700, pp. 555576, 2002.
[54] T. Pietrzak, P. Adrich, T. Aumann, C. O. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano, A. S.
Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, M. De Napoli, J. E. Ducret, H. Emling, J. Frankland, M. Hellstroem, D. Henzlova, G. Imme, I. Iori, H. Johansson, K. Kezzar, A. Lafriakh,
A. Le Fevre, E. Le Gentil, Y. Leifels, J. Luehning, J. Lukasik, W. G. Lynch, U. Lynen, Z. Majka, M. Mocko,
W. F. J. Muller, A. Mykulyak, H. Orth, A. N. Otte, R. Palit,
P. Pawªowski, A. Pullia, G. Raciti, E. Rapis-
arda, H. Sann, C. Schwarz, C. Senti, H. Simon, K. Suemmerer, W. Trautmann, M. B. Tsang, G. Verde,
C. Volant, M. Wallace, H. Weick, J. Wiechula, A. Wieloch, and B. Zwieglinski, Tracing a phase transition
with uctuations of the largest fragment size: Statistical multifragmentation models and the ALADIN
S254 data, in
International Workshop on Multifragmentation and related topics (J. Frankland, A. Pagano,
Conference Procedings, p. 171, Italian Physical
S. Pirrone, M.-F. Rivet, and F. Rizzo, eds.), vol. 101 of
Society.
[55] N. Le Neindre, R. Bougault, F. Gulminelli, B. Borderie, A. Chbihi,
P. Pawªowski, M.-F. Rivet, J. Steck-
meyer, G. Auger, N. Bellaize, F. Bocage, B. Bouriquet, R. Brou, P. Buchet, J. Colin, R. Dayras, N. De Cesare, A. Demeyer, E. Galichet, E. Genouin-Duhamel, E. Gerlic, D. Guinet, S. Hudan, P. Lautesse,
F. Lavaud, J.-L. Laville, J.-F. Lecolley, C. Leduc, R. Legrain, O. Lopez, M. Louvel, J. Lukasik, A.-M.
Maskay, L. Nalpas, J. Normand, M. Parlog, J. Peter, E. Plagnol, E. Rosato, F. Saint-Laurent, G. Tabacaru,
B. Tamain, L. Tassan-Got, O. Tirel, E. Vient, M. Vigilante, C. Volant, J.-P. Wieleczko, M.-F. Rivet, J.-L.
Laville, J.-F. Lecolley, A.-M. Maskay, J.-P. Wieleczko, L. N. N., and et al., Negative heat capacities in
Ricerca Scientica ed Educazione Permanente Supplemento, vol. 116, pp. 404
central Xe+Sn reactions, in
418, Universita Degli Studi Di Milano, 2000.
[56] A. Wieloch, J. Brzychczyk, J. Lukasik,
P. Pawªowski,
T. Pietrzak, and W. Trautmann, Critical-like
International Workshop on Multifragmentation and related topics
(J. Frankland, A. Pagano, S. Pirrone, M.-F. Rivet, and F. Rizzo, eds.), vol. 101 of Conference Procedings,
behavior in a lattice gas model, in
p. 158, Italian Physical Society, 2009.
[57] J. Lukasik, J. Brzychczyk, A. Budzanowski, B. Czech, S. Kupny, P. Lasko,
P. Pawªowski, I. Skwirczynska,
Z. Sosin, A. Wieloch, M. Kis, Y. Leifels, and T. W., Test of the triple telescope prototype for the ASY-EOS
experiment, in
GSI Scientic Report 2010 (K. Grosse, ed.), p. 69, Darmstadt:
GSI Helmholtzzentrum fur
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[58] M. De Napoli, C. Senti, P. Adrich, T. Aumann, C. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano,
A. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, J.-E. Ducret, H. Emling, J. Frankland, M. Hellström, D. Henzlova, K. Kezzar, G. Immé, I. Iori, H. Johansson, A. Lafriakh, A. Le Fèvre,
E. Le Gentil, Y. Leifels, W. Lynch, J. Luhning, J. Lukasik, U. Lynen, Z. Majka, M. Mocko, W. Muller,
A. Mykulyak, H. Orth, A. Otte, R. Palit,
P. Pawªowski,
A. Pullia, G. Raciti, E. Rapisarda, H. Sann,
C. Schwarz, H. Simon, K. Summerer, W. Trautmann, M. Tsang, C. Volant, M. Wallace, H. Weick,
J. Wiechula, A. Wieloch, B. Zwieglinski, D. N. M., and et al., ∆-scaling in spectator multifragmentation
at relativistic energies, in
IWM2005 International Workshop on Multifragmentation and related topics
Conference Proceedings,
(R. Bougault, A. Pagano, S. Pirrone, M. Rivet, and F. Rozzo, eds.), vol. 91 of
pp. 287293, Italian Physical Society, 2006.
[59] P. Russotto, P. Z. Wu, M. Zoric, M. Chartier, Y. Leifels, R. C. Lemmon, Q. Li, J. Lukasik, A. Pagano,
P. Pawªowski,
and W. Trautmann, Symmetry energy from elliptic ow in
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197
197
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[60] C. Senti, M. De Napoli, S. Bianchin, A. Botvina, J. Brzychczyk, A. Le Fèvre, J. Lukasik,
P. Pawªowski,
W. Trautmann, P. Adrich, T. Aumann, C. Bacri, T. Barczyk, R. Bassini, C. Boiano, A. Boudard, A. Chbihi,
J. Cibor, B. Czech, J.-E. Ducret, H. Emling, J. Frankland, M. Hellström, D. Henzlova, K. Kezzar, G. Immè,
I. Iori, H. Johansson, A. Lafriakh, E. Le Gentil, Y. Leifels, W. Lynch, J. Luhning, U. Lynen, Z. Majka,
M. Mocko, W. Muller, A. Mykulyak, H. Orth, A. Otte, R. Palit, A. Pullia, G. Raciti, E. Rapisarda,
H. Sann, C. Schwarz, H. Simon, K. Summerer, C. Volant, M. Wallace, H. Weick, J. Wiechula, A. Wieloch, B. Zwieglinski, S. C., and et al., Isotopic eects in nuclear reactions at relativistic energies, in
XLV International Winter meeting on Nuclear Physics, Bormio (A. T. I. Iori, ed.), vol. 127 of Ricerca
Scientica ed Educazione Permanente Supplemento, pp. 223232, Universita Degli Studi Di Milano, 2007.
arXiv:0704.0227.
[61] J. Steckmeyer, Z. Sosin, K. Grotowski,
P. Pawªowski,
S. Aiello, A. Anzalone, M. Bini, B. Borderie,
R. Bougault, G. Cardella, G. Casini, S. Cavallaro, J.-L. Charvet, R. Dayras, E. De Filippo, D. Durand,
25 / 34
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COMPLETE LIST OF PUBLICATIONS
S. Femino, J. Frankland, E. Galichet, M. Geraci, F. Giustolisi, P. Guazzoni, M. Iacono Manno, G. Lanzalone, G. Lanzano, N. Le Neindre, S. Lo Nigro, F. Lo Piano, A. Olmi, A. Pagano, M. Papa, M. Parlog,
G. Pasquali, S. Piantelli, S. Pirrone, G. Politi, F. Porto, M. Rivet, F. Rizzo, E. Rosato, R. Roy, S. Sambataro, M. Sperduto, A. Stefanini, C. Sutera, B. Tamain, E. Vient, C. Volant, J. Wieleczko, L. Zetta, S. J.C.,
and et al., Evaluation of excitation energy and spin from light charged particles multiplicities in heavy-ion
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[62] P. Russotto, L. Acosta, M. Adamczyk, A. Al-Ajlan, M. Al-Garawi, S. Al-Homaidhi, F. Amorini, L. Auditore, T. Aumann, Y. Ayyad, V. Baran, Z. Basrak, J. Benlliure, C. Boiano, C. Boisjoli, K. Boretzky,
J. Brzychczyk, A. Budzanowski, G. Cardella, P. Cammarata, S. Cavallaro, Z. Chajecki, M. Chartier,
A. Chbihi, M. Colonna, B. Czech, E. De Filippo, M. Di Toro, M. Famiano, A. Le Fevre, A. Gasspari¢,
E. Geraci, L. Grassi, V. Greco, C. Guazzoni, P. Guazzoni, M. Heil, L. Heilborn, R. Introzzi, T. Isobe,
K. Kezzar, M. Kis, S. Kupny, N. Kurz, E. La Guidara, G. Lanzalone, P. Lasko, Y. Leifels, R. Lemmon, Q. Li, I. Lombardo, D. Loria, J. Lukasik, W. Lynch, P. Marini, Z. Matthews, L. May, T. Minniti,
M. Mostazo, A. Pagano, M. Papa,
P. Pawªowski, M. Petrovici, S. Pirrone, G. Politi, F. Porto, R. Reifarth,
W. Reisdorf, F. Riccio, F. Rizzo, E. Rosato, D. Rossi, S. Santoro, H. Simon, I. Skwirczynska, Z. Sosin,
W. Trautmann, A. Trirò, M. Trimarchi, B. Tsang, M. Veselsky, G. Verde, M. Vigilante, A. Wieloch,
P. Wigg, J. Wilczynski, H. Wolter, P. Wu, S. Yennello, P. Zambon, L. Zetta, and M. Zoric, ASY-EOS
experiment at GSI,
EPJ Web of Conferences, vol. 31, p. 00012, 2012.
[63] J.-E. Ducret, E. Le Gentil, T. Aumann, C.-O. Bacri, J. Benlliure, M. Böhmer, A. Boudard, E. Casarejos,
L. Donadille, M. Fernandez-Ordonez, R. Gernhäuser, H. Johansson, A. Kelic, K. Kezzar, R. Krücken,
T. Kurtukian-Nieto, A. Lafriakh, F. Lavaud, A. Le Fevre, S. Leray, J. Lukasik, W.-F. J. Müller,
P. Pawªowski,
S. Pietri, F. Rejmund, C. Schwarz, C. Senti, H. Simon, W. Trautmann, C. Volant,
and O. Yordanov, Study of the de-excitation channels in the reaction
the SPALADIN set-up at GSI, in
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[64] M.-F. Rivet, N. Bellaize, B. Borderie, R. Bougault, A. Chbihi, J.-D. Frankland, B. Guiot, O. Lopez,
N. Le Neindre, M. Parlog, G. Tabacaru, J.-P. Wieleczko, G. Auger, C.-O. Bacri, B. Bouriquet, A. Buta,
J. Colin, D. Cussol, R. Dayras, N. Cesare, A. Demeyer, D. Dore, D. Durand, E. Galichet, E. Gerlic,
D. Guinet, S. Hudan, G. Lanzalone, P. Lautesse, F. Lavaud, J.-L. Laville, J.-F. Lecolley, R. Legrain,
L. Nalpas, J. Normand,
P. Pawªowski,
E. Plagnol, E. Rosato, R. Roy, J.-C. Steckmeyer, B. Tamain,
E. Vient, M. Vigilante, C. Volant, M.-F. Rivet, J.-D. Frankland, J.-P. Wieleczko, C.-O. Bacri, N. Cesare,
J.-L. Laville, J.-F. Lecolley, J.-C. Steckmeyer, R. M.-F., and et al., Dynamics and thermodynamics of
IWM2001 International Workshop on Multifragmentation and related
topics, pp. 1120, Instituto Nazionale di Fisica Nucleare, 2002. arXiv:nucl-ex/0205010.
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[65] E. Plagnol, J. Lukasik, G. Tabacaru, B. Borderie, M. Rivet, P. Chomaz, M. Colonna, J. Frankland,
A. Guarnera, M. Parlog, B. Bouriquet, A. Chbihi, S. Salou, J. Wieleczko, G. Auger, C. Bacri, N. Bellaize, R. Bougault, R. Brou, P. Buchet, J. Charvet, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore,
D. Durand, E. Galichet, E. Gerlic, B. Guiot, S. Hudan, D. Guinet, P. Lautesse, F. Lavaud, J. Laville,
J. Lecolley, C. Leduc, R. Legrain, N. Le Neindre, O. Lopez, M. Louvel, A.-M. Maskay, L. Nalpas, J. Normand,
P. Pawªowski, E. Rosato, F. Saint-Laurent, J. Steckmeyer, B. Tamain, L. Tassan-Got, E. Vient,
C. Volant, C. Bacri, P. E., and et al., The onset of mid-velocity emissions in symmetric heavy ion reactions, in
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P. Pawªowski, B. Borderie, G. Auger, C. Bacri, N. Bellaize, F. Bocage, R. Bougault, R. Brou, P. Buchet,
J. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore, D. Durand, J.-D. Frankland,
E. Galichet, E. Genouin-Duhamel, E. Gerlic, D. Guinet, P. Lautesse, J. Laville, J. Lecolley, R. Legrain,
N. Le Neindre, O. Lopez, M. Louvel, A.-M. Maskay, L. Nalpas, A. Nguyen, M. Parlog, J. Peter, E. Plagnol,
M. Rivet, E. Rosato, F. Saint-Laurent, S. Salou, J. Steckmeyer, M. Stern, G. Tabacaru, B. Tamain,
L. Tassan-Got, O. Tirel, E. Vient, C. Volant, J. Wieleczko, C. Bacri, and P. Buchet, Contribution of
prompt emissions to the production of intermediate velocity light particles in the
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Ar+
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[67] E. Galichet, B. Borderie, G. Lanzalone, M. Rivet, G. Auger, C. Bacri, N. Bellaize, R. Bougault, B. Bouriquet, A. Buta, A. Chbihi, J. Colin, R. Dayras, N. De Cesare, A. Demeyer, D. Dore, D. Durand, J. Frankland, E. Gerlic, D. Guinet, B. Guiot, S. Hudan, P. Lautesse, F. Lavaud, J. Laville, J. Lecolley, R. Legrain,
N. Le Neindre, O. Lopez, L. Manduci, L. Nalpas, J. Normand, M. Parlog,
26 / 34
P. Pawªowski,
E. Plagnol,
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COMPLETE LIST OF PUBLICATIONS
E. Rosato, R. Roy, J. Steckmeyer, G. Tabacaru, B. Tamain, E. Vient, M. Vigilante, C. Volant, and J. Wi-
40th International
Winter Meeting on Nuclear Physics, Bormio (M. A. Iori I, ed.), vol. 119 of Ricerca Scientica ed Educazione
Permanente Supplemento, pp. 209216, Universita degli Studi di Milano, 2002.
eleczko, Study of isospin equilibration using Ni+Ni and Ni+Au peripheral collisions, in
[68] R. Bougault, G. Poggi, S. Barlini, B. Borderie, G. Casini, A. Chbihi, N. Le Neindre, M. Parlog, G. Pasquali,
S. Piantelli, Z. Sosin, G. Ademard, R. Alba, A. Anastasio, S. Barbey, L. Bardelli, M. Bini, A. Boiano,
M. Boisjoli, E. Bonnet, R. Borcea, B. Bougard, G. Brulin, M. Bruno, S. Carboni, C. Cassese, F. Cassese,
M. Cinausero, L. Ciolacu, I. Cruceru, M. Cruceru, B. D'Aquino, B. De Fazio, M. Degerlier, P. Desrues,
P. Di Meo, J. A. Duenas, P. Edelbruck, S. Energico, M. Falorsi, J. D. Frankland, E. Galichet, K. Gasior,
F. Gramegna, R. Giordano, D. Gruyer, A. Grzeszczuk, M. Guerzoni, H. Hamrita, C. Huss, M. Kajetanowicz, K. Korcyl, A. Kordyasz, T. Kozik, P. Kulig, L. Lavergne, E. Legouee, O. Lopez, J. Lukasik, C. Maiolino,
T. Marchi, P. Marini, I. Martel, V. Masone, A. Meoli, Y. Merrer, L. Morelli, F. Negoita, A. Olmi, A. Ordine, G. Paduano, C. Pain, M. Palka, G. Passeggio, G. Pastore,
P. Pawªowski,
M. Petcu, H. Petrascu,
E. Piasecki, G. Pontoriere, E. Rauly, M. F. Rivet, R. Rocco, E. Rosato, L. Roscilli, E. Scarlini, F. Salomon,
D. Santonocito, V. Seredov, S. Serra, D. Sierpowski, G. Spadaccini, C. Spitaels, A. A. Stefanini, G. Tobia,
G. Tortone, T. Twarog, S. Valdre, A. Vanzanella, E. Vanzanella,
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[69] J. Lukasik, P. Adrich, T. Aumann, C. O. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano, A. S.
Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, J. E. Ducret, H. Emling, J. Frankland,
M. Hellstroem, D. Henzlova, G. Imme, I. Iori, H. Johansson, K. Kezzar, A. Lafriakh, A. L. Fevre, E. L.
Gentil, Y. Leifels, J. Luehning, W. G. Lynch, U. Lynen, Z. Majka, M. Mocko, W. F. J. Muller, A. Mykulyak,
M. De Napoli, H. Orth, A. N. Otte, R. Palit,
P. Pawªowski, A. Pullia, G. Raciti, E. Rapisarda, H. Sann,
C. Schwarz, C. Senti, H. Simon, K. Summerer, W. Trautmann, M. B. Tsang, G. Verde, C. Volant,
M. Wallace, H. Weick, J. Wiechula, A. Wieloch, B. Zwieglinski, C. Bacri, A. Botvina, J.-E. Ducret, A. L.
Fevre, E. L. Gentil, W. Lynch, W. Muller, A. Otte, M. Tsang, L. J., and et al., Discriminant Analysis and
Secondary-Beam Charge Recognition,
Nuclear Instruments and Methods A, vol. 587, pp. 413419, 2008.
[70] W. Gawlikowicz, R. Planeta, K. Grotowski, J. Brzychczyk, A. Cole, P. Desesquelles, P. Hachaj, S. Micek,
P. Pawªowski, Z. Sosin, A. Wieloch, D. Benchekroun, E. Bisquer, A. Chabane, M. Charvet, B. Cheynis,
A. Demeyer, E. Gerlic, A. Giorni, D. Guinet, D. Heuer, P. Lautesse, L. Lebreton, A. Lleres, M. Stern,
L. Vagneron, J.-B. Viano, J.-B. Viano, G. W., and et al., New signatures of prompt multifragmentation
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[71] P. Russotto, M. Chartier, E. De Filippo, A. Le Fevre, S. Gannon, I. Gasparic, M. Kis, S. Kupny, Y. Leifels,
R. C. Lemmon, J. Lukasik, P. Marini, A. Pagano,
P. Pawªowski, S. Santoro, W. Trautmann, M. Veselsky,
L. Acosta, M. Adamczyk, A. Al-Ajlan, M. Al-Garawi, S. Al-Homaidhi, F. Amorini, L. Auditore, T. Aumann, Y. Ayyad, V. Baran, Z. Basrak, J. Benlliure, C. Boiano, M. Boisjoli, K. Boretzky, J. Brzychczyk,
A. Budzanowski, G. Cardella, P. Cammarata, Z. Chajecki, A. Chbihi, M. Colonna, D. Cozma, B. Czech,
M. Di Toro, M. Famiano, E. Geraci, V. Greco, L. Grassi, C. Guazzoni, P. Guazzoni, M. Heil, L. Heilborn,
R. Introzzi, T. Isobe, K. Kezzar, A. Krasznahorkay, N. Kurz, E. La Guidara, G. Lanzalone, P. Lasko, Q. Li,
I. Lombardo, W. G. Lynch, Z. Matthews, L. May, T. Minniti, M. Mostazo, M. Papa, S. Pirrone, G. Politi,
F. Porto, R. Reifarth, W. Reisdorf, F. Riccio, F. Rizzo, E. Rosato, D. Rossi, H. Simon, I. Skwirczynska,
Z. Sosin, L. Stuhl, A. Triro, M. Trimarchi, M. B. Tsang, G. Verde, M. Vigilante, A. Wieloch, P. Wigg,
H. H. Wolter, P. Wu, S. Yennello, P. Zambon, L. Zetta, and M. Zoric, The ASY-EOS experiment at
GSI: investigating the symmetry energy at supra-saturation densities, in
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[72] J. Šukasik,
P. Pawªowski,
11th International Conference
A. Budzanowski, B. Czech, I. Skwirczy«ska, J. Brzychczyk, M. Adamczyk,
S. Kupny, P. Lasko, Z. Sosin, A. Wieloch, M. Kivs, Y. Leifels, and W. Trautmann, KRATTA, a triple
telescope array for charged reaction products, in
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[73] J. Colin, D. Cussol, J. Normand, N. Bellaize, B. Borderie, R. Bougault, B. Bouriquet, A. Buta, J. Charvet,
A. Chbihi, R. Dayras, D. Durand, J. Frankland, E. Galichet, D. Guinet, B. Guiot, S. Hudan, P. Lautesse,
F. Lavaud, N. Le Neindre, O. Lopez, L. Manduci, J. Marie, L. Nalpas, M. Parlog,
P. Pawªowski,
E. Plagnol, M. Rivet, E. Rosato, R. Roy, J. Steckmeyer, B. Tamain, A. Van Lauwe, E. Vient, M. Vigilante,
C. Volant, and J. Wieleczko, Dynamical eects in multifragmentation at intermediate energies,
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[74] O. Lopez, N. Bellaize, J. Wieleczko, G. Auger, B. Borderie, R. Bougault, B. Bouriquet, A. Buta, J. Charvet,
A. Chbihi, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore, D. Durand, J. Frankland, E. Galichet,
27 / 34
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E. Gerlic, L. Gingras, D. Guinet, B. Guiot, S. Hudan, P. Lautesse, F. Lavaud, J. Lecolley, R. Legrain,
N. Le Neindre, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
E. Plagnol, M. Rivet, E. Rosato,
R. Roy, J. Steckmeyer, G. Tabacaru, B. Tamain, L. Tassan-Got, E. Vient, M. Vigilante, C. Volant, L. O.,
IWM2002 - International Workshop on
Multifragmentation and related topics, pp. 2126, Instituto Nazionale di Fisica Nucleare, 2002.
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[75] S. Bianchin, C. Senti, J. Lukasik, A. Le Fevre, W. Trautmann, P. Adrich, T. Aumann, C. Bacri, T. Barczyk, R. Bassini, C. Boiano, A. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech,
M. De Napoli, J.-E. Ducret, H. Emling, J. Frankland, M. Hellstrom, D. Henzlova, K. Kezzar, G. Imme,
I. Iori, H. Johansson, A. Lafriakh, E. Le Gentil, Y. Leifels, W. G. Lynch, J. Luhning, U. Lynen, Z. Majka,
M. Mocko, W. F. J. Muller, A. Mykulyak, H. Orth, A. N. Otte, R. Palit,
P. Pawªowski, A. Pullia, G. Rac-
iti, E. Rapisarda, H. Sann, C. Schwarz, H. Simon, K. Summerer, M. B. Tsang, C. Volant, M. Wallace,
H. Weick, J. Wiechula, A. Wieloch, B. Zwieglinski, B. S., and et al., Mass measurement and isoscal-
Sn+Sn reactions at 600 AMeV, in XLV international winter meeting on nuclear
physics Bormio (A. T. I. Iori, ed.), vol. 127 of Ricerca Scientica ed Educazione Permanente Supplemento,
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pp. 233242, Universita Degli Studi Di Milano, 2007.
[76] B. Borderie, M. F. Rivet, G. Tabacaru, M. Colonna, P. Desesquelles, M. Parlog, G. Auger, C. Bacri,
N. Bellaize, R. Bougault, B. Bouriquet, A. Buta, A. Chbihi, J. Colin, A. Demeyer, E. Galichet, E. Gerlic,
D. Guinet, B. Guiot, S. Hudan, P. Lautesse, F. Lavaud, J.-L. Laville, J.-F. Lecolley, C. Leduc, R. Legrain,
O. Lopez, M. Louvel, J. Normand,
P. Pawªowski,
E. Rosato, J. Steckmeyer, B. Tamain, L. Tassan-
Got, E. Vient, J.-P. Wieleczko, M. F. Rivet, B. B., and et al., Liquid-Gas Coexistence Region in Cen-
tral Xe+Sn Reactions, in 39th International Winter Meeting on Nuclear Physics, Bormio, vol. 117 of
Ricerca Scientica ed Educazione Permanente Supplemento, p. 11, Universita Degli Studi Di Milano, 2001.
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[77] M.-F. Rivet, F. Bocage, B. Borderie, J. Colin, P. Lautesse, J. Lukasik,
P. Pawªowski, E. Plagnol, G. Auger,
C. Bacri, N. Bellaize, R. Bougault, B. Bouriquet, R. Brou, P. Buchet, J.-L. Charvet, A. Chbihi, D. Cussol,
R. Dayras, N. De Cesare, A. Demeyer, D. Dore, D. Durand, J. Frankland, E. Galichet, E. GenouinDuhamel, E. Gerlic, S. Hudan, D. Guinet, F. Lavaud, J.-L. Laville, J.-F. Lecolley, C. Leduc, R. Legrain,
N. Le Neindre, O. Lopez, M. Louvel, A.-M. Maskay, L. Nalpas, J. Normand, M. Parlog, J. Peter, E. Rosato,
F. Saint-Laurent, J.-C. Steckmeyer, M. Stern, G. Tabacaru, B. Tamain, L. Tassan-Got, O. Tirel, E. Vient,
M. Vigilante, C. Volant, J.-P. Wileczko, M.-F. Rivet, C. Bacri, J.-L. Charvet, J.-L. Laville, J.-F. Lecolley,
J.-C. Steckmeyer, J.-P. Wileczko, R. M.-F., and et al., Dynamical features in nucleus-nucleus collisions
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[78] J. Steckmeyer, S. Aiello, A. Anazalone, G. Auger, M. Bini, B. Borderie, R. Bougault, B. Bouriquet,
A. Buta, G. Cardella, G. Casini, S. Cavallaro, J. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras,
N. De Cesare, E. De Filippo, A. Demeyer, D. Dore, D. Durand, S. Femino, J. Frankland, E. Galichet,
M. Geraci, E. Gerlic, L. Gingras, F. Giustolisi, P. Guazzoni, D. Guinet, B. Guiot, S. Hudan, G. Lanzalone,
G. Lanzano, P. Lautesse, F. Lavaud, J. Lecolley, R. Legrain, N. Le Neindre, S. Lo Nigro, O. Lopez,
F. Lo Piano, L. Manduci, L. Nalpas, J. Normand, A. Olmi, A. Pagano, M. Papa, M. Parlog, G. Pasquali,
P. Pawªowski,
S. Piantelli, S. Pirrone, E. Plagnol, G. Poggi, G. Politi, F. Porto, M. Rivet, F. Rizzo,
E. Rosato, R. Roy, S. Sambataro, M. Samri, M. Sperduto, A. Stefanini, C. Sutera, G. Tabacaru, B. Tamain,
L. Tassan-Got, M. Vachon, E. Vient, M. Vigilante, C. Volant, J. Wieleczko, and L. Zetta, Study of the
dissipative binary channels in the
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[79] N. Le Neindre, R. Bougault, F. Gulminelli, P. Chomaz, G. Tabacaru, B. Borderie, M. Rivet, M. Colonna,
J. Frankland, A. Guarnera, M. Parlog, B. Bouriquet, A. Chbihi, S. Salou, J. Wieleczko, G. Auger, C. Bacri,
N. Bellaize, R. Brou, P. Buchet, J. Charvet, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore,
D. Durand, E. Galichet, E. Gerlic, B. Guiot, S. Hudan, D. Guinet, P. Lautesse, F. Lavaud, J. Laville,
J. Lecolley, C. Leduc, R. Legrain, O. Lopez, M. Louvel, J. Lukasik, A.-M. Maskay, L. Nalpas, J. Normand,
P. Pawªowski, E. Plagnol, E. Rosato, F. Saint-Laurent, J. Steckmeyer, B. Tamain, L. Tassan-Got,
E. Vient, C. Volant, P. Chomaz, C. Bacri, L. N. N., and et al., Phase transition in Xe+Sn central events
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Nucleus-nucleus collisions, pp. 221226, World Scientic, 2001.
V. A. V. D. Bonsignori G.C, ed.), vol. 1 of
[80] E. Galichet, B. Borderie, G. Lanzalone, M. Rivet, G. Auger, C. Bacri, N. Bellaize, R. Bougault, B. Bouriquet, A. Buta, A. Chbihi, J. Colin, R. Dayras, N. De Cesare, A. Demeyer, D. Dore, D. Durand, J. Frankland, E. Gerlic, D. Guinet, B. Guiot, S. Hudan, P. Lautesse, F. Lavaud, J. Laville, J. Lecolley, R. Legrain,
28 / 34
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
N. Le Neindre, O. Lopez, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski, E. Plagnol, E. Rosato, R. Roy,
J. Steckmeyer, G. Tabacaru, B. Tamain, E. Vient, M. Vigilante, C. Volant, J. Wieleczko, C. Bacri, G. E.,
and et al., Study of isospin equilibration using Ni+Ni and Ni+Au peripheral collisions, in
Workshop on Multifragmentation and related topics,
International
pp. 144148, Instituto Nazionale di Fisica Nucleare,
2002.
[81] G. Tabacaru, B. Borderie, M. Rivet, P. Chomaz, M. Colonna, J. Frankland, A. Guarnera, M. Parlog,
B. Bouriquet, A. Chbihi, S. Salou, J. Wieleczko, G. Auger, C. Bacri, N. Bellaize, R. Bougault, R. Brou,
P. Buchet, J. Charvet, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore, D. Durand, E. Galichet, E. Gerlic, B. Guiot, S. Hudan, D. Guinet, P. Lautesse, F. Lavaud, J. Laville, J. Lecolley, C. Leduc, R. Legrain,
N. Le Neindre, O. Lopez, M. Louvel, J. Lukasik, A.-M. Maskay, L. Nalpas, J. Normand,
P. Pawªowski,
E. Plagnol, E. Rosato, F. Saint-Laurent, J. Steckmeyer, B. Tamain, L. Tassan-Got, E. Vient, C. Volant,
C. Bacri, T. G., and et al., Experimental evidence for spinodal decomposition in multifragmentation of
Bologna 2000. Structure of the nucleus at the dawn of the century (G. C. Bonsignori,
Nucleus-nucleus collisions, pp. 321325, World Scientic, 2001. arXiv:nucl-ex/0102015.
heavy systems, in
ed.), vol. 1 of
[82] D. Theriault, A. Vallee, L. Gingras, Y. Larochelle, R. Roy, A. April, L. Beaulieu, F. Grenier, F. Lemieux,
J. Moisan, M. Samri, C. St-Pierre, S. Turbide, B. Borderie, R. Bougault, P. Buchet, J. L. Charvet,
A. Chbihi, J. Colin, D. Cussol, R. Dayras, D. Durand, J. Frankland, E. Galichet, D. Guinet, B. Guiot,
P. Lautesse, J. Lecolley, N. Le Neindre, O. Lopez, A.-M. Maskay, L. Nalpas, M. Parlog,
P. Pawªowski,
M. F. Rivet, E. Rosato, J. Steckmeyer, B. Tamain, E. Vient, C. Volant, J. Wieleczko, S. J. Yennello,
E. Martin, E. Winchester, T. D., and et al., Neutron to proton ratios of quasiprojectile and midrapidity
emission in the
58
58
Ni-
Ni reaction at 52 MeV/Nucleon,
Physical Review C, vol. 71, pp. 014610113, 2005.
[83] J.-D. Frankland, R. Bougault, A. Chbihi, S. Hudan, A. Mignon, G. Auger, C.-O. Bacri, N. Bellaize, B. Borderie, B. Bouriquet, A. Buta, J.-L. Charvet, J. Colin, D. Cussol, R. Dayras, N. De Cesare, A. Demeyer,
D. Dore, D. Durand, E. Galichet, E. Gerlic, D. Guinet, B. Guiot, G. Lanzalone, P. Lautesse, F. Lavaud,
J.-L. Laville, J.-F. Lecolley, R. Legrain, N. Le Neindre, O. Lopez, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski, E. Plagnol, M.-F. Rivet, E. Rosato, R. Roy, G. Tabacaru, B. Tamain, E. Vient, M. Vigi-
lante, C. Volant, J.-P. Wieleczko, J.-D. Frankland, C.-O. Bacri, J.-L. Charvet, J.-L. Laville, J.-F. Lecolley,
M.-F. Rivet, J.-P. Wieleczko, F. J.-D., and et al., Universal uctuations: a new approach to the study of
International Workshop on Multifragmentation and related topics, pp. 8490, Instituto Nazionale di Fisica Nucleare, 2002. arXiv:nucl-ex/0201020.
phase transitions in intermediate energy heavy ion collisions, in
[84] J. Steckmeyer, S. Aiello, A. Anzalone, G. Auger, M. Bini, B. Borderie, R. Bougault, B. Bouriquet, A. Buta,
G. Cardella, G. Casini, S. Cavallaro, J. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, N. De Cesare, E. De Filippo, A. Demeyer, D. Dore, D. Durand, S. Femino, J. Frankland, E. Galichet, M. Geraci,
E. Gerlic, L. Gingras, F. Giustolisi, P. Guazzoni, D. Guinet, B. Guiot, S. Hudan, G. Lanzalone, G. Lanzano, P. Lautesse, F. Lavaud, J. Lecolley, R. Legrain, N. Le Neindre, S. Lo Nigro, O. Lopez, F. Lo Piano,
L. Manduci, L. Nalpas, J. Normand, A. Olmi, A. Pagano, M. Papa, M. Parlog, G. Pasquali,
P. Pawªowski,
S. Piantelli, S. Pirrone, E. Plagnol, G. Poggi, G. Politi, M. Rivet, F. Rizzo, E. Rosato, R. Roy, S. Sambataro, M. Samri, M. Sperduto, A. Stefanini, C. Sutera, G. Tabacaru, B. Tamain, L. Tassan-Got, M. Vachon,
E. Vient, M. Vigilante, C. Volant, J. Wieleczko, L. Zetta, S. J.C., and et al., Study of the dissipative
Ni reaction at 52 MeV/nucleon, in International Workshop on Multifragmentation and related topics, pp. 176180, Instituto Nazionale di Fisica Nucleare, 2002.
binary channels in the
[85]
107
Ag +
58
P. Pawªowski, B. Borderie, G. Auger, C. Bacri, N. Bellaize, F. Bocage, R. Bougault, R. Brou, P. Buchet,
J. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, A. Demeyer, D. Dore, D. Durand, J. D. Frankland,
E. Galichet, E. Genouin-Duhamel, E. Gerlic, D. Guinet, P. Lautesse, J. Laville, J. Lecolley, R. Legrain,
N. Le Neindre, O. Lopez, M. Louvel, A.-M. Maskay, L. Nalpas, A. Nguyen, M. Parlog, J. Peter, E. Plagnol,
M. Rivet, E. Rosato, F. Saint-Laurent, S. Salou, J. Steckmeyer, M. Stern, G. Tabacaru, B. Tamain,
L. Tassan-Got, O. Tirel, E. Vient, C. Volant, and J. Wieleczko, Contribution of prompt emissions to the
Ni reaction at 95 MeV/nucleon, in 9th
International Conference on Nuclear Reaction Mechanisms, Varenna (E. Gadioli, ed.), vol. 115 of Ricerca
Scientica ed Educazione Permanente, pp. 509516, Universita Degli Studi Di Milano, 2000.
production of intermediate velocity light particles in the
36
Ar+
58
[86] B. Borderie, S. Piantelli, M. F. Rivet, A. R. Raduta, G. Ademard, E. Bonnet, R. Bougault, A. Chbihi,
J. D. Frankland, E. Galichet, D. Gruyer, D. Guinet, P. Lautesse, N. Le Neindre, O. Lopez, P. Marini,
M. Parlog,
P. Pawªowski,
transition for hot nuclei,
E. Rosato, R. Roy, and M. Vigilante, Constrained caloric curves and phase
Physics Letters B, vol. 723, no. 1-3, pp. 140144, 2013.
[87] S. Hudan, A. Chbihi, J. Frankland, A. Mignon, J. Wieleczko, G. Auger, N. Bellaize, B. Borderie, A. Botvina, R. Bougault, B. Bouriquet, A. Buta, J. Colin, D. Cussol, R. Dayras, D. Durand, E. Galichet, D. Guinet,
B. Guiot, G. Lanzalone, P. Lautesse, F. Lavaud, J. Lecolley, R. Legrain, N. Le Neindre, O. Lopez, L. Manduci, J. Marie, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
29 / 34
M. Picheon, E. Plagnol, M. Rivet,
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
E. Rosato, R. Roy, J. Steckmeyer, G. Tabacaru, B. Tamain, A. Van Lauwe, E. Vient, M. Vigilante, and
C. Volant, Characteristics of the fragments produced in central collisions of
50A MeV,
Physical Review C, vol. 67, p. 064613, 2003.
129
nat
Xe+
Sn from 32A to
arXiv:nucl-ex/0210029.
[88] C. Senti, P. Adrich, T. Aumann, C. O. Bacri, T. Barczyk, R. Bassini, C. Boiano, A. S. Botvina,
A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, M. De Napoli, J. E. Ducret, H. Emling, J. Frankland, M. Hellstrom, D. Henzlova, K. Kezzar, G. Imme, I. Iori, H. Johansson, A. Lafriakh, A. Le Fevre,
E. Le Gentil, Y. Leifels, W. G. Lynch, J. Luhning, J. Lukasik, U. Lynen, Z. Majka, M. Mocko, W. F. J.
Muller, A. Mykulyak, H. Orth, A. N. Otte, R. Palit,
P. Pawªowski, A. Pullia, G. Raciti, E. Rapisarda,
H. Sann, C. Schwarz, H. Simon, K. Summerer, W. Trautmann, M. B. Tsang, C. Volant, M. Wallace, H. Weick, J. Wiechula, A. Wieloch, and B. Zwieglinski, Mass and isospin dependence in multifragmentation,
Acta Physica Polonica B, vol. 37, no. 1, pp. 193198, 2006.
[89] N. Le Neindre, J. Wieleczko, R. Bougault, F. Gulminelli, G. Auger, C. Bacri, N. Bellaize, B. Borderie,
B. Bouriquet, J. Charvet, A. Chbihi, J. Colin, D. Cussol, R. Dayras, N. De Cesare, A. Demeyer, D. Dore,
D. Durand, J. Frankland, E. Galichet, E. Gerlic, D. Guinet, B. Guiot, S. Hudan, G. Lanzalone, P. Lautesse,
F. Lavaud, J. Laville, J. Lecolley, R. Legrain, O. Lopez, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
E. Plagnol, M. Rivet, E. Rosato, R. Roy, G. Tabacaru, B. Tamain, E. Vient, M. Vigilante, C. Volant, L. N.
40th International Winter
Meeting on Nuclear Physics, Bormio (M. A. Iori I, ed.), vol. 119 of Ricerca Scientica ed Educazione
Permanente Supplemento, pp. 144152, Universita degli Studi di Milano, 2002.
N., and et al., Phase transition in a large range of heavy excited nuclei, in
[90] C. Senti, M. De Napoli, P. Adrich, T. Aumann, C. Bacri, T. Barczyk, R. Bassini, S. Bianchin, C. Boiano,
A. Botvina, A. Boudard, J. Brzychczyk, A. Chbihi, J. Cibor, B. Czech, J.-E. Ducret, H. Emling, J. Frankland, M. Hellstrom, D. Henzlova, G. Kezzar, K. Imme, I. Iori, H. Johansson, A. Lafriakh, A. Le Fèvre,
E. Le Gentil, Y. Leifels, W. Lynch, J. Luhning, H. Lukasik, Z. Majka, M. Mocko, W. Muller, A. Mykulyak,
H. Orth, A. Otte, R. Palit,
P. Pawªowski, A. Pullia, G. Raciti, E. Rapisarda, H. Sann, C. Schwarz, H. Si-
mon, K. Summerer, W. Trautmann, M. Tsang, C. Volant, M. Wallace, H. Weick, J. Wiechula, A. Wieloch,
B. Zwieglinski, S. C., and et al., Surveying spectator fragmentation at relativistic energy, in XLIV international winter meeting on nuclear physics, Bormio (A. T. I. Iori, ed.), vol. 125 of Ricerca Scientica ed
Educazione Permanente Supplemento, pp. 229238, Universita degli Studi di Milano, 2006.
[91] D. Dore, P. Buchet, J. L. Charvet, R. Dayras, L. Nalpas, D. Cussol, T. Lefort, R. Legrain, C. Volant,
G. Auger, C. O. Bacri, N. Bellaize, F. Bocage, R. Bougault, B. Bouriquet, R. Brou, A. Chbihi, J. Colin,
A. Demeyer, D. Durand, J. D. Frankland, E. Galichet, E. Genouin-Duhamel, E. Gerlic, D. Guinet, S. Hudan, P. Lautesse, F. Lavaud, J. L. Laville, J. Lecolley, C. Leduc, N. Le Neindre, O. Lopez, M. Louvel, A.-M.
Maskay, J. Normand, M. Parlog,
P. Pawªowski,
E. Plagnol, M. F. Rivet, E. Rosato, F. Saint-Laurent,
J. Steckmeyer, M. Stern, G. Tabacaru, B. Tamain, L. Tassan-Got, O. Tirel, E. Vient, J. P. Wieleczko,
J. L. Charvet, C. O. Bacri, J. D. Frankland, J. L. Laville, M. F. Rivet, and J. P. Wieleczko, Eect of the
intermediate velocity emissions on the quasi-projectile properties for the Ar + Ni system at 95 A.MeV,
Physics Letters B, vol. 491, pp. 1522, 2000.
arXiv:nucl-ex/0009004.
[92] D. Gruyer, J. D. Frankland, R. Botet, M. Ploszajczak, E. Bonnet, A. Chbihi, G. Ademard, M. Boisjoli,
B. Borderie, R. Bougault, D. Guinet, P. Lautesse, L. Manduci, N. Le Neindre, P. Marini,
P. Pawªowski,
M. F. Rivet, E. Rosato, G. Spadaccini, M. Vigilante, J. P. Wieleczko, and I. Collaboration, Nuclear
Multifragmentation Time Scale and Fluctuations of the Largest Fragment Size,
Physical Review Letters,
vol. 110, p. 172701, APR 25 2013.
[93] P. Russotto, M. Chartier, M. D. Cozma, E. De Filippo, A. Le Fevre, S. Gannon, I. Gasparic, M. Kis,
S. Kupny, Y. Leifels, R. C. Lemmon, Q. Li, J. Lukasik, P. Marini,
P. Pawªowski, S. Santoro, W. Traut-
mann, M. Veselsky, L. Acosta, M. Adamczyk, A. Al-Ajlan, M. Ai-Garawi, S. Al-Homaidhi, F. Amorini,
L. Auditore, T. Aumann, Y. Ayyad, V. Baran, Z. Basrak, R. Bassini, J. Benlliure, C. Boiano, M. Boisjoli,
K. Boretzky, J. Brzychczyk, A. Budzanowski, G. Cardella, P. Cammarata, Z. Chajecki, A. Chbihi,
M. Colonna, B. Czech, M. Di Toro, M. Famiano, V. Greco, L. Grassi, C. Guazzoni, P. Guazzoni, M. Heil,
L. Heilborn, R. Introzzi, T. Isobe, K. Kezzar, A. Krasznahorkay, N. Kurz, E. La Guidara, G. Lanzalone,
P. Lasko, I. Lombardo, W. G. Lynch, Z. Matthews, L. May, T. Minniti, M. Mostazo, A. Pagano, M. Papa,
S. Pirrone, R. Pleskac, G. Politi, F. Porto, R. Reifarth, W. Reisdorf, F. Riccio, F. Rizzo, E. Rosato,
D. Rossi, H. Simon, I. Skwirczynska, Z. Sosin, L. Stuhl, A. Triro, M. Trimarchi, M. B. Tsang, G. Verde,
M. Vigilante, A. Wieloch, P. Wigg, H. H. Wolter, P. Wu, S. Yennello, P. Zambon, L. Zetta, and M. Zoric,
The ASY-EOS experiment at GSI: investigating symmetry energy at supra-saturation densities, in
ternational Nuclear Physics Conference (INPC), vol. 66 of EPJ Web of Conferences, 2014.
In-
[94] J. Frankland, A. Chbihi, S. Hudan, A. Mignon, A. Ono, G. Auger, C. Bacri, M. Begemann-Blaich, N. Bellaize, R. Bittinger, B. Borderie, R. Bougault, B. Bouriquet, A. Buta, J. Charvet, J. Colin, D. Cussol,
30 / 34
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
R. Dayras, N. De Cesare, A. Demeyer, D. Dore, D. Durand, E. Galichet, E. Gerlic, D. Gourio, D. Guinet,
B. Guiot, G. Lanzalone, P. Lautesse, F. Lavaud, J. Laville, J. Lecolley, A. Le Fevrer, R. Legrain, N. Le Neindre, O. Lopez, U. Lynen, W. Muller, L. Nalpas, J. Normand, H. Orth, M. Parlog,
P. Pawªowski,
E. Plagnol, M. Rivet, E. Rosato, R. Roy, A. Saija, C. Stenti, C. Schwartz, G. Tabacaru, B. Tamain,
W. Tarutmann, A. Trczinski, K. Turzo, E. Vient, M. Vigilante, C. Volant, J. Wieleczko, B. Zwieglinski, C. Bacri, F. J.D., and et al., Fragment production in central heavy-ion collisions: reconciling the
40th International Winter Meeting on Nuclear Physics, Bormio (I. Iori and A. Moroni, eds.), vol. 119 of Ricerca
Scientica ed Educazione Permanente Supplemento, pp. 175188, Universita degli Studi di Milano, 2002.
dominance of dynamics with observed phase transition signals through universal uctuations, in
arXiv:nucl-ex/0202026.
[95] J.-E. Ducret, T. Aumann, Y. Ayyad, S. Bianchin, O. Borodina, A. Boudard, C. Caesar, E. Casajeros,
B. Czech, T. Gorbinet, S. Hlavac, N. Kurz, C. Langer, T. Le Bleis, A. Le Fevre, S. Leray, J. Lukasik,
P. Pawªowski, S. Pietri, C. Rappold, M.-D. Salsac, T. Saito, H. Simon, M. Veselsky, and O. Yordanov,
S304: Measurement of the spallation of
136
Xe in inverse kinematics at 1 GeV per nucleon, in
Report 2009 (K. Grosse, ed.), p. 194, Darmstadt:
GSI Scientic
GSI Helmholtzzentrum fur Schwerionenforschung, 2010.
[96] W. Trautmann, M. Chartier, Y. Leifels, R. Lemmon, Q. Li, J. Lukasik, A. Pagano,
P. Pawªowski, P. Rus-
XLVII International Winter Meeting on
Nuclear Physics, Bormio (R. A. Ricci, W. Kuhn, and A. Tarantola, eds.), vol. 99 of Conference Proceedings,
sotto, and P. Wu, Neutron-proton elliptic ow in Au + Au, in
Italian Physical Society, 2009.
[97] N. Bellaize, O. Lopez, J. Wieleczko, D. Cussol, G. Auger, C. Bacri, F. Bocage, B. Borderie, R. Bougault,
B. Bouriquet, R. Brou, P. Buchet, A. Buta, J. Charvet, A. Chbihi, J. Colin, R. Dayras, N. De Cesare,
A. Demeyer, D. Dore, D. Durand, J. Frankland, E. Galichet, E. Genouin-Duhamel, E. Gerlic, B. Guiot,
D. Guinet, S. Hudan, G. Lanzalone, P. Lautesse, F. Lavaud, J. Laville, J. Lecolley, R. Legrain, N. Le Neindre, L. Manduci, J. Marie, L. Nalpas, J. Normand, M. Parlog,
P. Pawªowski,
E. Plagnol, M. Rivet,
E. Rosato, R. Roy, F. Saint-Laurent, J. Steckmeyer, G. Tabacaru, B. Tamain, E. van Lauwe, L. TassanGot, E. Vient, M. Vigilante, and C. Volant, Multifragmentation process for dierent mass asymmetry in
the entrance channel around the fermi energy,
Nuclear Physics A, vol. 709, pp. 367391, 2002.
arXiv:nucl-
ex/0203009.
[98] B. Borderie, C. Bacri, R. Bougault, A. Chbihi, P. Chomaz, M. Colonna, J. Frankland, A. Guarnera, F. Gulminelli, N. Le Neindre, M. Parlog, M.-F. Rivet, S. Salou, G. Tabacaru, L. Tassan-Got, J.-P. Wieleczko,
G. Auger, N. Bellaize, F. Bocage, B. Bouriquet, R. Brou, P. Buchet, J.-L. Charvet, J. Colin, D. Cussol,
R. Dayras, N. De Cesare, A. Demeyer, D. Dore, D. Durand, E. Galichet, E. Genouin-Duhamel, E. Gerlic,
S. Hudan, D. Guinet, F. Lavaud, P. Lautesse, J.-L. Laville, J.-F. Lecolley, C. Leduc, R. Legrain, O. Lopez,
M. Louvel, J. Lukasik, A.-M. Maskay, L. Nalpas, J. Normand,
P. Pawªowski,
J. Peter, E. Plagnol,
E. Rosato, F. Saint-Laurent, J.-C. Steckmeyer, M. Stern, B. Tamain, O. Tirel, E. Vient, M. Vigilante,
C. Volant, C. Bacri, P. Chomaz, M.-F. Rivet, J.-P. Wieleczko, J.-L. Charvet, J.-L. Laville, J.-F. Lecolley,
J.-C. Steckmeyer, B. B., and et al., Thermodynamical features of nuclear sources studied with INDRA,
in
Advances in Nuclear Physics Fifty Years of Institutional Physics Research in Romania
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31 / 34
(D. Poenaru,
Piotr Pawªowski Summary of professional ...
COMPLETE LIST OF PUBLICATIONS
Description of contribution to publications
Ref
Opis
%
[1]
Data calibration and analysis
10
[2]
Paper discussion
1
[3]
Data calibration & analysis, preparation of manuscript
70
[4]
Data calibration & analysis, preparation of manuscript
70
[5]
Data calibration & analysis, preparation of manuscript
70
[6]
Data calibration
5
[7]
Data calibration
5
[8]
Data calibration
5
[9]
Data calibration
5
[10]
Data calibration
5
[11]
Data calibration
5
[12]
Data analysis, model simulations, preparing the mnuscript
80
[13]
All
100
[14]
Paper discussion
2
[15]
Proposal of experiment, preparing the text
30
[16]
Modelowanie odpowiedzi detektora CsI
10
[17]
Designing the experiment, data acquisition and calibration
20
[18]
Paper discussion
1
[19]
Model calculations, preparing the manuscript
70
[20]
Paper discussion
1
[21]
Paper discussion
2
[22]
Data calibration, LAND data analysis
20
[23]
Data calibration, discussion of experimental results
10
[24]
Paper discussion
1
[25]
Paper discussion
1
[26]
Paper discussion
1
[27]
Data calibration, LAND data analysis, preparing the manuscript
70
[28]
Data calibration, LAND data analysis
30
[29]
Preparing and participation in the experiment, analysis of neutrons
10
[30]
Developing of the algorithm, model calculations, preparing the manuscript
70
[31]
Preparing and participation in the experiment, data acquisition
10
[32]
Performing model calculation, preparing of the manuscript
70
[33]
Preparing and participation in the experiment, data acquisition
10
[34]
Paper discussion
2
[35]
Designing and construction of the detector, preparing the experiment, data acquisition, calibration and analysis
30
[36]
Participation in the collaboration work
1
[37]
Paper discussion
5
[38]
Neutron data analysis
5
[39]
Data calibration, paper discussion
5
[40] Designing and construction of the detector, preparing the experiment, data acquisition, Data calibration and analysis 10
[41]
Model calculations, preparing the manuscript
50
[42]
Data calibration, paper discussion
5
[43]
Data calibration, paper discussion
5
[44]
Data calibration, paper discussion
5
[45]
Data calibration, paper discussion
5
[46]
Data calibration, paper discussion
5
32 / 34
Piotr Pawªowski Summary of professional ...
Ref
[47]
[48]
[49]
[50]
[51]
[52]
[53]
[54]
[55]
[56]
[57]
[58]
[59]
[60]
[61]
[62]
[63]
[64]
[65]
[66]
[67]
[68]
[69]
[70]
[71]
[72]
[73]
[74]
[75]
[76]
[77]
[78]
[79]
[80]
[81]
[82]
[83]
[84]
[85]
[86]
[87]
[88]
[89]
[90]
[91]
[92]
[93]
[94]
COMPLETE LIST OF PUBLICATIONS
Opis
Data calibration, paper discussion
Data calibration, paper discussion
Data calibration, paper discussion
Data calibration, paper discussion
Data calibration, paper discussion
Data calibration, paper discussion
Data calibration, paper discussion
Data calibration analysis of neutrons
Data calibration analysis of neutrons
Data calibration analysis of neutrons
Preparing the experiment, data acquisition
Preparing the experiment, data acquisition
Paper discussion
Paper discussion
Data calibration, paper discussion
Paper discussion
Preparing the experiment, data acquisition
Paper discussion
Paper discussion
Data analysis, model simulations, preparing the mnuscript
Paper discussion
Paper discussion
Paper discussion
Data calibration
Participation in the experiment, data calibration
Designing and construction of the detector, preparing the experiment, data acquisition, calibration and analysis
Paper discussion
Paper discussion
Data calibration, paper discussion
Paper discussion
Paper discussion
Paper discussion
Paper discussion
Paper discussion
Paper discussion
Paper discussion
Paper discussion
Paper discussion
Data analysis, model simulations, preparing of mnuscript
Paper discussion
Paper discussion
Data calibration, paper discussion
Paper discussion
Data calibration, paper discussion
Paper discussion
Paper discussion
Prepariing the experiment, data calibration
Paper discussion
33 / 34
%
5
5
5
5
5
5
5
30
5
5
5
5
2
2
2
2
5
1
2
80
1
1
1
5
10
30
1
1
5
5
1
1
1
1
1
1
1
1
80
1
1
5
1
5
2
1
5
1