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Scientific program Silicon Quantum Electronics Workshop 2016

Scientific program Silicon Quantum Electronics Workshop 2016
Monday, June 13
08:00 08:40 Registration
08:40
09:00
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10:50
Opening
Session I: Single donors and acceptors, chair: Arne Laucht
I-1 J.P. Dehollain (QuTech & Kavli Institute of Nanoscience, TU Delft)
Optimization of a 31P-28Si single-electron-spin qubit using Gate Set Tomography
I-2 D. Culcer (University of New South Wales)
A charge-insensitive single-atom spin-orbit qubit in silicon
I-3 N. Stavrias (Radboud University)
Measurement of the lifetime of bismuth donor orbital states in silicon
I-4 M.J. Calderon (Instituto de ciencia de materiales de Madrid, ICMM-CSIC)
Donor wavefunctions in Si gauged by STM images
Break
Session II: Two and more qubits, chair: Lars Schreiber
II-1 P. Harvey-Collard (Sandia National Laboratories)
Coherent control of spin interaction between a quantum dot and a donor in silicon
II-2 K.W.C. Chan (University of New South Wales)
Exchange coupling in a three-qubit system based on silicon quantum dots
II-3 T.F. Watson (Delft University of Technology)
Coherent control of two electron spin qubits bound to Si/SiGe quantum dots
II-4 A. Broome (University of New South Wales)
Controllable Exchange Mediated Two Electron Correlations on Precision Placed Donors in
Silicon
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III-7 J. Salfi (The University of New South Wales)
Quantum Simulation of the Hubbard Model with Dopant Atoms in Silicon
16:30
18:30
Posters
18:45
21:00
Banquet
Lunch
Session IIIA: Quantum processor architectures, chair: Xavier Jehl
III-1 J.S.C. Clarke (Intel Corporation)
Towards Quantum Dot Qubits at Intel
III-2 B.W. Lovett (University of St Andrews)
Surface code architecture for donors and dots in silicon with imprecise and nonuniform qubit
couplings
III-3 S.T. Tenberg (University of New South Wales)
Scaling up a donor based silicon quantum processor
Break
Session IIIB: Quantum processor architectures, chair: Nodar Samkharadze
III-4 V. Srinivasa (University of Maryland)
Circuit QED-based approaches for entangling distant resonant exchange qubits in silicon
III-5 S. Simmons (Simon Fraser University)
A photonic link for donor spin qubits in silicon
III-6 D. Hill (University of Melbourne)
An Architecture For Large-Scale Quantum Computation in Silicon
Tuesday, June 14
Session IV: Quantum dots and nanowires, chair: Mikko Möttönen
IV-1 N. Zimmerman (NIST, Ted Thorbeck, University of Wisconsin-Madison)
Are quantum dots in unexpected locations due to strain?
IV-2 H.W. Watzinger (Johannes Kepler University)
Heavy-hole charge sensing and double quantum dots in Ge hut-wires
IV-3 M. Brauns (University of Twente)
Anisotropic Pauli spin blockade in hole quantum dots
IV-4 M. Sanquer (CEA-Grenoble and UGA)
Pauli blockade in a few-hole CMOS double quantum dot
IV-5 R.M. Maurand (CEA Grenoble)
Electrically controlled CMOS hole spin qubit
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Lunch
14:00
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15:40
V-6 X. Li (University of Maryland)
Transporting a single-spin qubit through a double quantum dot
Session VI: Nano-electronic devices, chair: Fabio Sebastiano
VI-1 H.A.R. Homulle (TU Delft)
An FPGA-based cryogenic platform for the classical control of Quantum Computers
VI-2 A.S. Saraiva (UFRJ (Universidade Federal do Rio de Janeiro))
Theory of Corner States in Silicon Nanowire Devices
VI-3 S.R. Rochette (Université de Sherbrooke)
A split accumulation gate architecture for silicon MOS quantum dots
VI-4 A.R. Rossi (University of Cambridge)
Precise GHz single-electron pumping with metal-oxide-semiconductor silicon quantum dots
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Break
Session V: Quantum dot qubits, chair: Rajib Rahman
V-1 K.T. Takeda (RIKEN CEMS)
AC Stark effect and optimal control of a strongly driven Si/SiGe quantum dot spin qubit
V-2 Y.Y. Yang (University of Wisconsin-Madison)
Achieving high fidelity single qubit gates of a silicon quantum dot hybrid qubit using strong
driving
V-3 T. Hunter (HRL Laboratories)
Randomized Benchmarking with an Exchange-Only Si/SiGe Qubit
V-4 R.R. Ruskov (University of Maryland, Laboratory for Physical Sciences)
Electron g-factor of valley states in Si quantum dot qubits: interface physics and magnetic
field angular dependence
V-5 R.U.F. Ferdous (Purdue University)
Valley dependent electron spin resonance in a silicon quantum dot with integrated micromagnets
Break
Session VII: Ensemble donors and acceptors, chair Stephanie Simmons
H.G. Owen (Zyvex Labs LLC)
Advances in Precision for Digital STM Lithography on Silicon
VII-2 A.M. Tyryshkin (Princeton University)
Electron spin decoherence of J-coupled donor pairs in 2D delta-layers, 50 nm below surface in
silicon
VII-3 A.J. Sigillito (Princeton University)
Large Stark effect for donor electron spins in germanium
VII-4 D.P.F. Franke (Walter Schottky Institut, TU München)
Nuclear spin coherence of ionized arsenic donors
Closing

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