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Xizheng Ma
Xizheng Ma
DAMO Quantum Laboratory, Alibaba Group
Verified email at alibaba-inc.com
Title
Cited by
Cited by
Year
Faithful conversion of propagating quantum information to mechanical motion
AP Reed, KH Mayer, JD Teufel, LD Burkhart, W Pfaff, M Reagor, L Sletten, ...
Nature Physics 13 (12), 1163-1167, 2017
1382017
Fluxonium: An alternative qubit platform for high-fidelity operations
F Bao, H Deng, D Ding, R Gao, X Gao, C Huang, X Jiang, HS Ku, Z Li, ...
Physical Review Letters 129 (1), 010502, 2022
782022
Phonon-number-sensitive electromechanics
JJ Viennot, X Ma, KW Lehnert
Physical review letters 121 (18), 183601, 2018
712018
Non-classical energy squeezing of a macroscopic mechanical oscillator
X Ma, JJ Viennot, S Kotler, JD Teufel, KW Lehnert
Nature Physics 17 (3), 322-326, 2021
392021
Efficient and low-backaction quantum measurement using a chip-scale detector
EI Rosenthal, CMF Schneider, M Malnou, Z Zhao, F Leditzky, ...
Physical review letters 126 (9), 090503, 2021
292021
Titanium nitride film on sapphire substrate with low dielectric loss for superconducting qubits
H Deng, Z Song, R Gao, T Xia, F Bao, X Jiang, HS Ku, Z Li, X Ma, J Qin, ...
Physical Review Applied 19 (2), 024013, 2023
102023
Characterization of loss mechanisms in a fluxonium qubit
H Sun, F Wu, HS Ku, X Ma, J Qin, Z Song, T Wang, G Zhang, J Zhou, ...
Physical Review Applied 20 (3), 034016, 2023
62023
Native Approach to Controlled- Gates in Inductively Coupled Fluxonium Qubits
X Ma, G Zhang, F Wu, F Bao, X Chang, J Chen, H Deng, R Gao, X Gao, ...
Physical Review Letters 132 (6), 060602, 2024
2024
Unraveling the role of disorderness in superconducting materials on qubit coherence
R Gao, F Wu, H Sun, J Chen, H Deng, X Ma, X Miao, Z Song, X Wan, ...
arXiv preprint arXiv:2310.06621, 2023
2023
Quantum Control over a Low Frequency Mechanical Oscillator Using a Superconducting Qubit
X Ma
University of Colorado at Boulder, 2020
2020
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Articles 1–10