David Zajac
David Zajac
Research Scientist, IBM
Verified email at ibm.com
Title
Cited by
Cited by
Year
Resonantly driven CNOT gate for electron spins
DM Zajac, AJ Sigillito, M Russ, F Borjans, JM Taylor, G Burkard, JR Petta
Science 359 (6374), 439-442, 2018
3642018
A coherent spin–photon interface in silicon
X Mi, M Benito, S Putz, DM Zajac, JM Taylor, G Burkard, JR Petta
Nature 555 (7698), 599-603, 2018
2382018
Strong coupling of a single electron in silicon to a microwave photon
X Mi, JV Cady, DM Zajac, PW Deelman, JR Petta
Science, aal2469, 2016
2222016
Scalable gate architecture for a one-dimensional array of semiconductor spin qubits
DM Zajac, TM Hazard, X Mi, E Nielsen, JR Petta
Physical Review Applied 6 (5), 054013, 2016
2142016
A reconfigurable gate architecture for Si/SiGe quantum dots
DM Zajac, TM Hazard, X Mi, K Wang, JR Petta
Applied Physics Letters 106 (22), 223507, 2015
1192015
Shuttling a single charge across a one-dimensional array of silicon quantum dots
AR Mills, DM Zajac, MJ Gullans, FJ Schupp, TM Hazard, JR Petta
Nature communications 10 (1), 1-6, 2019
1142019
Circuit quantum electrodynamics architecture for gate-defined quantum dots in silicon
X Mi, JV Cady, DM Zajac, J Stehlik, LF Edge, JR Petta
Applied Physics Letters 110 (4), 043502, 2017
722017
High-fidelity quantum gates in Si/SiGe double quantum dots
M Russ, DM Zajac, AJ Sigillito, F Borjans, JM Taylor, JR Petta, G Burkard
Physical Review B 97 (8), 085421, 2018
502018
Site-Selective Quantum Control in an Isotopically Enriched Quadruple Quantum Dot
AJ Sigillito, JC Loy, DM Zajac, MJ Gullans, LF Edge, JR Petta
Physical Review Applied 11 (6), 061006, 2019
452019
Magnetotransport studies of mobility limiting mechanisms in undoped Si/SiGe heterostructures
X Mi, TM Hazard, C Payette, K Wang, DM Zajac, JV Cady, JR Petta
Physical Review B 92 (3), 035304, 2015
422015
Single-spin relaxation in a synthetic spin-orbit field
F Borjans, DM Zajac, TM Hazard, JR Petta
Physical Review Applied 11 (4), 044063, 2019
342019
Micro-integrated near-field optical recording head and optical recording system using the same
KH Park, KB Song, SQ Lee, JY Kim
US Patent App. 10/192,976, 2003
332003
Semiconductor quantum dot device and method for forming a scalable linear array of quantum dots
J Petta, D Zajac, T Hazard
US Patent 10,192,976, 2019
142019
Tunable coupling architecture for fixed-frequency transmons
J Stehlik, DM Zajac, DL Underwood, T Phung, J Blair, S Carnevale, ...
arXiv preprint arXiv:2101.07746, 2021
82021
Quantum CNOT gate for spins in silicon
DM Zajac, AJ Sigillito, M Russ, F Borjans, JM Taylor, G Burkard, JR Petta
arXiv preprint arXiv:1708.03530, 2017
52017
Fast multifrequency measurement of nonlinear conductance
R Borgani, MG Kohan, A Vomiero, DB Haviland
Physical Review Applied 11 (4), 044062, 2019
32019
Tunable Coupling Architecture for Fixed-Frequency Transmon Superconducting Qubits
J Stehlik, DM Zajac, DL Underwood, T Phung, J Blair, S Carnevale, ...
Physical Review Letters 127 (8), 080505, 2021
22021
Single Electron Spin Qubits in Silicon Quantum Dots
D Zajac
Princeton University, 2018
22018
Spectator Errors in Tunable Coupling Architectures
DM Zajac, J Stehlik, DL Underwood, T Phung, J Blair, S Carnevale, ...
arXiv preprint arXiv:2108.11221, 2021
12021
Spectators Errors in Multiqubit Tunable Coupling Architectures
D Zajac, J Stehlik, D Underwood, T Phung, M Kumph, J Blair, S Carnevale, ...
Bulletin of the American Physical Society, 2021
12021
The system can't perform the operation now. Try again later.
Articles 1–20