David James Hover
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The Zwicky Transient Facility: system overview, performance, and first results
EC Bellm, SR Kulkarni, MJ Graham, R Dekany, RM Smith, R Riddle, ...
Publications of the Astronomical Society of the Pacific 131 (995), 018002, 2018
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
The zwicky transient facility: science objectives
MJ Graham, SR Kulkarni, EC Bellm, SM Adams, C Barbarino, ...
Publications of the Astronomical Society of the Pacific 131 (1001), 078001, 2019
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), 12964, 2016
Microwave photon counter based on Josephson junctions
YF Chen, D Hover, S Sendelbach, L Maurer, ST Merkel, EJ Pritchett, ...
Physical review letters 107 (21), 217401, 2011
The zwicky transient facility: Observing system
R Dekany, RM Smith, R Riddle, M Feeney, M Porter, D Hale, J Zolkower, ...
Publications of the Astronomical Society of the Pacific 132 (1009), 038001, 2020
3D integrated superconducting qubits
D Rosenberg, D Kim, R Das, D Yost, S Gustavsson, D Hover, P Krantz, ...
npj quantum information 3 (1), 42, 2017
Magnetism in SQUIDs at millikelvin temperatures
S Sendelbach, D Hover, A Kittel, M Mück, JM Martinis, R McDermott
Physical review letters 100 (22), 227006, 2008
Thermal and residual excited-state population in a 3D transmon qubit
XY Jin, A Kamal, AP Sears, T Gudmundsen, D Hover, J Miloshi, R Slattery, ...
Physical Review Letters 114 (24), 240501, 2015
Analysis and mitigation of interface losses in trenched superconducting coplanar waveguide resonators
G Calusine, A Melville, W Woods, R Das, C Stull, V Bolkhovsky, D Braje, ...
Applied Physics Letters 112 (6), 2018
Suppressing relaxation in superconducting qubits by quasiparticle pumping
S Gustavsson, F Yan, G Catelani, J Bylander, A Kamal, J Birenbaum, ...
Science 354 (6319), 1573-1577, 2016
Resonance fluorescence from an artificial atom in squeezed vacuum
DM Toyli, AW Eddins, S Boutin, S Puri, D Hover, V Bolkhovsky, WD Oliver, ...
Physical Review X 6 (3), 031004, 2016
The D0 silicon microstrip tracker
SN Ahmed, R Angstadt, M Aoki, B Åsman, S Austin, L Bagby, E Barberis, ...
Nuclear Instruments and Methods in Physics Research Section A: Accelerators …, 2011
Coherent coupled qubits for quantum annealing
SJ Weber, GO Samach, D Hover, S Gustavsson, DK Kim, A Melville, ...
Physical Review Applied 8 (1), 014004, 2017
Distinguishing coherent and thermal photon noise in a circuit quantum electrodynamical system
F Yan, D Campbell, P Krantz, M Kjaergaard, D Kim, JL Yoder, D Hover, ...
Physical Review Letters 120 (26), 260504, 2018
Complex inductance, excess noise, and surface magnetism in dc SQUIDs
S Sendelbach, D Hover, M Mück, R McDermott
Physical review letters 103 (11), 117001, 2009
Superconducting low-inductance undulatory galvanometer microwave amplifier
D Hover, YF Chen, GJ Ribeill, S Zhu, S Sendelbach, R McDermott
Applied Physics Letters 100 (6), 2012
High-resolution infrared spectrograph for exoplanet characterization with the Keck and thirty meter telescopes
D Mawet, M Fitzgerald, Q Konopacky, C Beichman, N Jovanovic, ...
arXiv preprint arXiv:1908.03623, 2019
Superconducting integrated circuit
WD Oliver, RN Das, DJ Hover, D Rosenberg, X Miloshi, V Bolkhovsky, ...
US Patent 10,658,424, 2020
Cryogenic qubit integration for quantum computing
RN Das, JL Yoder, D Rosenberg, DK Kim, D Yost, J Mallek, D Hover, ...
2018 IEEE 68th Electronic Components and Technology Conference (ECTC), 504-514, 2018
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