Haozhi Wang
Haozhi Wang
Laboratory for Physical Sciences, University of Maryland at College Park
Verified email at umd.edu
Title
Cited by
Cited by
Year
Materials loss measurements using superconducting microwave resonators
CRH McRae, H Wang, J Gao, MR Vissers, T Brecht, A Dunsworth, ...
Review of Scientific Instruments 91 (9), 091101, 2020
222020
Mode structure in superconducting metamaterial transmission-line resonators
H Wang, AP Zhuravel, S Indrajeet, BG Taketani, MD Hutchings, Y Hao, ...
Physical Review Applied 11 (5), 054062, 2019
152019
Superconducting metamaterials and qubits
BLT Plourde, H Wang, F Rouxinol, MD LaHaye
Quantum Information and Computation XIII 9500, 95000M, 2015
92015
Cryogenic single-port calibration for superconducting microwave resonator measurements
H Wang, S Singh, CR McRae, J Bardin, SX Lin, N Messaoudi, AR Castelli, ...
Quantum Science and Technology, 2021
42021
Coupling a Superconducting Qubit to a Left-Handed Metamaterial Resonator
S Indrajeet, H Wang, MD Hutchings, BG Taketani, FK Wilhelm, ...
Physical Review Applied 14 (6), 064033, 2020
32020
Cryogenic microwave loss in epitaxial Al/GaAs/Al trilayers for superconducting circuits
CRH McRae, A McFadden, R Zhao, H Wang, JL Long, T Zhao, S Park, ...
Journal of Applied Physics 129 (2), 025109, 2021
22021
Magnifying quantum phase fluctuations with Cooper-pair pairing
WC Smith, M Villiers, A Marquet, J Palomo, MR Delbecq, T Kontos, ...
arXiv preprint arXiv:2010.15488, 2020
22020
Reproducible coherence characterization of superconducting quantum devices
CRH McRae, GM Stiehl, H Wang, SX Lin, SA Caldwell, DP Pappas, ...
Applied Physics Letters 119 (10), 100501, 2021
2021
Perspective: Reproducible Coherence Characterization of Superconducting Quantum Devices
CRH McRae, GM Stiehl, H Wang, SX Lin, SA Caldwell, DP Pappas, ...
arXiv preprint arXiv:2106.09864, 2021
2021
Investigation of databased calibration for 1-Port cryogenic measurements
S Singh, H Wang, J Mutus, D Pappas, CR McRae, J Bardin
Bulletin of the American Physical Society, 2021
2021
Overlap junctions for superconducting quantum electronics and amplifiers
M Bal, J Long, R Zhao, H Wang, S Park, CRH McRae, T Zhao, RE Lake, ...
Applied Physics Letters 118 (11), 112601, 2021
2021
Investigating the speed limit of two-qubit entangling gates with superconducting qubits
J Howard, J Long, M Bal, R Zhao, T Zhao, D Pappas, Z Gong, M Singh
Bulletin of the American Physical Society 65, 2020
2020
Materials loss measurements using superconducting microwave resonators
CR Harrington McRae, H Wang, J Gao, M Vissers, T Brecht, A Dunsworth, ...
arXiv e-prints, arXiv: 2006.04718, 2020
2020
Overlap junction-based Josephson parametric amplifiers (O-JPA)
M Bal, J Long, R Zhao, H Wang, CR McRae, R Lake, S Park, X Wu, HS Ku, ...
Bulletin of the American Physical Society 65, 2020
2020
Epitaxial GaAs Loss Measurements and the Merged Element Transmon
CR McRae, A McFadden, R Zhao, H Wang, S Park, J Long, C Palmstrom, ...
Bulletin of the American Physical Society 65, 2020
2020
Improved material loss measurement using cryogenic resonator testbed
H Wang, CR McRae, K Mullins, J Mutus, D Fork, D Pappas
Bulletin of the American Physical Society 65, 2020
2020
Towards strong multi-mode coupling between a transmon and a metamaterial resonator
S Indrajeet, H Wang, BLT Plourde, M LaHaye, M Hutchings, B Taketani, ...
Bulletin of the American Physical Society 65, 2020
2020
Design of The Merged Element Transmon Qubit
S Park, R Zhao, CR McRae, J Long, T Zhao, R Lake, M Bal, H Wang, ...
Bulletin of the American Physical Society 65, 2020
2020
Preprocessing Method for Microwave Resonator Fitting
K Mullins, CR McRae, D Pappas, J Mutus, H Wang, D Fork
Bulletin of the American Physical Society 65, 2020
2020
Qubit Dynamics in a Multi-mode Environment with a Superconducting Metamaterial Resonator
S Indrajeet, H Wang, M Hutchings, M Lahaye, B Taketani, F Wilhelm, ...
APS March Meeting Abstracts 2019, P26. 004, 2019
2019
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