David K. Kim
David K. Kim
MIT Lincoln Laboratory
Verified email at - Homepage
Cited by
Cited by
Bandlike transport in strongly coupled and doped quantum dot solids: a route to high-performance thin-film electronics
JH Choi, AT Fafarman, SJ Oh, DK Ko, DK Kim, BT Diroll, S Muramoto, ...
Nano letters 12 (5), 2631-2638, 2012
Thiocyanate-capped nanocrystal colloids: vibrational reporter of surface chemistry and solution-based route to enhanced coupling in nanocrystal solids
AT Fafarman, W Koh, BT Diroll, DK Kim, DK Ko, SJ Oh, X Ye, ...
Journal of the American Chemical Society 133 (39), 15753-15761, 2011
Impact of ionizing radiation on superconducting qubit coherence
AP Vepsäläinen, AH Karamlou, JL Orrell, AS Dogra, B Loer, ...
Nature 584 (7822), 551-556, 2020
Realization of High-Fidelity CZ and -Free iSWAP Gates with a Tunable Coupler
Y Sung, L Ding, J Braumüller, A Vepsäläinen, B Kannan, M Kjaergaard, ...
Physical Review X 11 (2), 021058, 2021
Flexible and low-voltage integrated circuits constructed from high-performance nanocrystal transistors
DK Kim, Y Lai, BT Diroll, CB Murray, CR Kagan
Nature Communications 3, 1216, 2012
Waveguide quantum electrodynamics with superconducting artificial giant atoms
B Kannan, MJ Ruckriegel, DL Campbell, A Frisk Kockum, J Braumüller, ...
Nature 583 (7818), 775-779, 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
Coherent control of a hybrid superconducting circuit made with graphene-based van der Waals heterostructures
JIJ Wang, D Rodan-Legrain, L Bretheau, DL Campbell, B Kannan, D Kim, ...
Nature nanotechnology 14 (2), 120-125, 2019
Confocal reference free traction force microscopy
M Bergert, T Lendenmann, M Zündel, AE Ehret, D Panozzo, P Richner, ...
Nature communications 7 (1), 12814, 2016
Wedge waveguides and resonators for quantum plasmonics
SJP Kress, FV Antolinez, P Richner, SV Jayanti, DK Kim, F Prins, ...
Nano letters 15 (9), 6267-6275, 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
Determining interface dielectric losses in superconducting coplanar-waveguide resonators
W Woods, G Calusine, A Melville, A Sevi, E Golden, DK Kim, ...
Physical Review Applied 12 (1), 014012, 2019
Solid-state qubits integrated with superconducting through-silicon vias
DRW Yost, ME Schwartz, J Mallek, D Rosenberg, C Stull, JL Yoder, ...
npj Quantum Information 6 (1), 59, 2020
Probing quantum information propagation with out-of-time-ordered correlators
J Braumüller, AH Karamlou, Y Yanay, B Kannan, D Kim, M Kjaergaard, ...
Nature Physics 18 (2), 172-178, 2022
Near-field light design with colloidal quantum dots for photonics and plasmonics
SJP Kress, P Richner, SV Jayanti, P Galliker, DK Kim, D Poulikakos, ...
Nano letters 14 (10), 5827-5833, 2014
Direct patterning of colloidal quantum-dot thin films for enhanced and spectrally selective out-coupling of emission
F Prins, DK Kim, J Cui, E De Leo, LL Spiegel, KM McPeak, DJ Norris
Nano letters 17 (3), 1319-1325, 2017
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
Non-Gaussian noise spectroscopy with a superconducting qubit sensor
Y Sung, F Beaudoin, LM Norris, F Yan, DK Kim, JY Qiu, U von Lüpke, ...
Nature communications 10 (1), 3715, 2019
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
Reduced crosstalk and shielded adapter for mounting an integrated chip package on a circuit board like member
S Matsuba, D Kim
US Patent 5,562,462, 1996
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