Artikel dengan mandat akses publik - Easwar MagesanPelajari lebih lanjut
Tidak tersedia di mana pun: 1
Device challenges for near term superconducting quantum processors: frequency collisions
M Brink, JM Chow, J Hertzberg, E Magesan, S Rosenblatt
2018 IEEE International Electron Devices Meeting (IEDM), 6.1. 1-6.1. 3, 2018
Mandat: US Office of the Director of National Intelligence
Tersedia di suatu tempat: 8
Effective Hamiltonian models of the cross-resonance gate
E Magesan, JM Gambetta
Physical Review A 101 (5), 052308, 2020
Mandat: US Department of Defense
Demonstration of a High-Fidelity cnot Gate for Fixed-Frequency Transmons with Engineered Suppression
A Kandala, KX Wei, S Srinivasan, E Magesan, S Carnevale, GA Keefe, ...
Physical Review Letters 127 (13), 130501, 2021
Mandat: US Office of the Director of National Intelligence
Laser-annealing Josephson junctions for yielding scaled-up superconducting quantum processors
JB Hertzberg, EJ Zhang, S Rosenblatt, E Magesan, JA Smolin, JB Yau, ...
npj Quantum Information 7 (1), 129, 2021
Mandat: US Office of the Director of National Intelligence
Reducing unitary and spectator errors in cross resonance with optimized rotary echoes
N Sundaresan, I Lauer, E Pritchett, E Magesan, P Jurcevic, JM Gambetta
PRX Quantum 1 (2), 020318, 2020
Mandat: US Department of Defense
First-principles analysis of cross-resonance gate operation
M Malekakhlagh, E Magesan, DC McKay
Physical Review A 102 (4), 042605, 2020
Mandat: US Department of Defense, US Office of the Director of National Intelligence
Hamiltonian engineering with multicolor drives for fast entangling gates and quantum crosstalk cancellation
KX Wei, E Magesan, I Lauer, S Srinivasan, DF Bogorin, S Carnevale, ...
Physical Review Letters 129 (6), 060501, 2022
Mandat: US Office of the Director of National Intelligence
Mitigating off-resonant error in the cross-resonance gate
M Malekakhlagh, E Magesan
Physical Review A 105 (1), 012602, 2022
Mandat: US Office of the Director of National Intelligence
Time-dependent Schrieffer-Wolff-Lindblad perturbation theory: Measurement-induced dephasing and second-order Stark shift in dispersive readout
M Malekakhlagh, E Magesan, LCG Govia
Physical Review A 106 (5), 052601, 2022
Mandat: US Department of Defense
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