William D. Oliver
William D. Oliver
Professor, MIT
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Zitiert von
Zitiert von
A quantum engineer's guide to superconducting qubits
P Krantz, M Kjaergaard, F Yan, TP Orlando, S Gustavsson, WD Oliver
Applied Physics Reviews 6 (2), 021318, 2019
Superconducting qubits: Current state of play
M Kjaergaard, ME Schwartz, J Braumüller, P Krantz, JIJ Wang, ...
Annual Review of Condensed Matter Physics 11, 369-395, 2020
Noise spectroscopy through dynamical decoupling with a superconducting flux qubit
J Bylander, S Gustavsson, F Yan, F Yoshihara, K Harrabi, G Fitch, ...
Nature Physics 7 (7), 565-570, 2011
A near–quantum-limited Josephson traveling-wave parametric amplifier
C Macklin, K O’brien, D Hover, ME Schwartz, V Bolkhovsky, X Zhang, ...
Science 350 (6258), 307-310, 2015
Hanbury Brown and Twiss-type experiment with electrons
WD Oliver, J Kim, RC Liu, Y Yamamoto
Science 284 (5412), 299-301, 1999
Mach-Zehnder interferometry in a strongly driven superconducting qubit
WD Oliver, Y Yu, JC Lee, KK Berggren, LS Levitov, TP Orlando
Science 310 (5754), 1653-1657, 2005
The flux qubit revisited to enhance coherence and reproducibility
F Yan, S Gustavsson, A Kamal, J Birenbaum, AP Sears, D Hover, ...
Nature communications 7 (1), 1-9, 2016
Flux-driven Josephson parametric amplifier
T Yamamoto, K Inomata, M Watanabe, K Matsuba, T Miyazaki, WD Oliver, ...
Applied Physics Letters 93 (4), 042510, 2008
Quantum information processing and quantum optics with circuit quantum electrodynamics
A Blais, SM Girvin, WD Oliver
Nature Physics 16 (3), 247-256, 2020
Materials in superconducting quantum bits
WD Oliver, PB Welander
MRS bulletin 38 (10), 816-825, 2013
Perspectives of quantum annealing: Methods and implementations
P Hauke, HG Katzgraber, W Lechner, H Nishimori, WD Oliver
Reports on Progress in Physics 83 (5), 054401, 2020
Study of loss in superconducting coplanar waveguide resonators
JM Sage, V Bolkhovsky, WD Oliver, B Turek, PB Welander
Journal of Applied Physics 109 (6), 063915, 2011
Single microwave-photon detector using an artificial Λ-type three-level system
K Inomata, Z Lin, K Koshino, WD Oliver, JS Tsai, T Yamamoto, ...
Nature communications 7 (1), 1-7, 2016
Microwave-induced cooling of a superconducting qubit
SO Valenzuela, WD Oliver, DM Berns, KK Berggren, LS Levitov, ...
Science 314 (5805), 1589-1592, 2006
Amplitude spectroscopy of a solid-state artificial atom
DM Berns, MS Rudner, SO Valenzuela, KK Berggren, WD Oliver, ...
Nature 455 (7209), 51-57, 2008
Tunable coupling scheme for implementing high-fidelity two-qubit gates
F Yan, P Krantz, Y Sung, M Kjaergaard, DL Campbell, TP Orlando, ...
Physical Review Applied 10 (5), 054062, 2018
Electron entanglement via a quantum dot
WD Oliver, F Yamaguchi, Y Yamamoto
Physical review letters 88 (3), 037901, 2002
Fabrication Process and Properties of Fully-Planarized Deep-Submicron Nb/Al–Josephson Junctions for VLSI Circuits
SK Tolpygo, V Bolkhovsky, TJ Weir, LM Johnson, MA Gouker, WD Oliver
IEEE transactions on Applied Superconductivity 25 (3), 1-12, 2014
High-efficiency photon-number detection for quantum information processing
E Waks, K Inoue, WD Oliver, E Diamanti, Y Yamamoto
IEEE Journal of selected topics in quantum electronics 9 (6), 1502-1511, 2003
Coherence and decay of higher energy levels of a superconducting transmon qubit
MJ Peterer, SJ Bader, X Jin, F Yan, A Kamal, TJ Gudmundsen, PJ Leek, ...
Physical review letters 114 (1), 010501, 2015
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