Chan U Lei
Chan U Lei
Postdoc associate at Yale University
Verified email at
Cited by
Cited by
Quantum squeezing of motion in a mechanical resonator
EE Wollman, CU Lei, AJ Weinstein, J Suh, A Kronwald, F Marquardt, ...
Science 349 (6251), 952-955, 2015
Mechanically detecting and avoiding the quantum fluctuations of a microwave field
J Suh, AJ Weinstein, CU Lei, EE Wollman, SK Steinke, P Meystre, ...
Science 344 (6189), 1262-1265, 2014
Observation and interpretation of motional sideband asymmetry in a quantum electromechanical device
AJ Weinstein, CU Lei, EE Wollman, J Suh, A Metelmann, AA Clerk, ...
Physical Review X 4 (4), 041003, 2014
Quantum Nondemolition Measurement of a Quantum Squeezed State Beyond the 3 dB Limit
CU Lei, AJ Weinstein, J Suh, EE Wollman, A Kronwald, F Marquardt, ...
Phys. Rev. Lett. 117 (10), 100801, 2016
Strong opto-electro-mechanical coupling in a silicon photonic crystal cavity
A Pitanti, JM Fink, AH Safavi-Naeini, JT Hill, CU Lei, A Tredicucci, ...
Optics express 23 (3), 3196-3208, 2015
A quantum photonic dissipative transport theory
CU Lei, WM Zhang
Annals of Physics 327 (5), 1408-1433, 2012
Non-Markovian dynamics of a microcavity coupled to a waveguide in photonic crystals
MH Wu, CU Lei, WM Zhang, HN Xiong
Optics Express 18 (17), 18407-18418, 2010
Decoherence suppression of open quantum systems through a strong coupling to non-Markovian reservoirs
CU Lei, WM Zhang
Physical Review A 84 (5), 052116, 2011
High coherence superconducting microwave cavities with indium bump bonding
CU Lei, L Krayzman, S Ganjam, L Frunzio, RJ Schoelkopf
Applied Physics Letters 116 (15), 154002, 2020
The squeezed Kerr oscillator: spectral kissing and phase-flip robustness
NE Frattini, RG Cortiņas, J Venkatraman, X Xiao, Q Su, CU Lei, ...
arXiv preprint arXiv:2209.03934, 2022
Precision measurement of the microwave dielectric loss of sapphire in the quantum regime with parts-per-billion sensitivity
AP Read, BJ Chapman, CU Lei, JC Curtis, S Ganjam, L Krayzman, ...
Physical Review Applied 19 (3), 034064, 2023
Surpassing millisecond coherence in on chip superconducting quantum memories by optimizing materials and circuit design
S Ganjam, Y Wang, Y Lu, A Banerjee, CU Lei, L Krayzman, K Kisslinger, ...
Nature Communications 15 (1), 3687, 2024
Demonstrating a superconducting dual-rail cavity qubit with erasure-detected logical measurements
KS Chou, T Shemma, H McCarrick, TC Chien, JD Teoh, P Winkel, ...
arXiv preprint arXiv:2307.03169, 2023
Characterization of microwave loss using multimode superconducting resonators
CU Lei, S Ganjam, L Krayzman, A Banerjee, K Kisslinger, S Hwang, ...
Physical Review Applied 20 (2), 024045, 2023
Acoustic radiation from a superconducting qubit: From spontaneous emission to Rabi oscillations
V Jain, VD Kurilovich, YD Dahmani, CU Lei, D Mason, T Yoon, PT Rakich, ...
Physical Review Applied 20 (1), 014018, 2023
Listening to bulk crystalline vibrations with superconducting qubits
V Jain, T Yoon, CU Lei, Y Chu, L Frunzio, P Rakich, R Schoelkopf
Bulletin of the American Physical Society 65, 2020
Characterizing microwave losses in superconducting quantum circuits: Part 2
S Ganjam, Y Wang, Y Lu, A Banerjee, CU Lei, L Krayzman, K Kisslinger, ...
APS March Meeting Abstracts 2023, Y75. 007, 2023
Linear and nonlinear capacitive coupling of electro-opto-mechanical photonic crystal cavities
A Pitanti, JM Fink, AH Safavi-Naeini, CU Lei, JT Hill, A Tredicucci, ...
arXiv preprint arXiv:1407.2982, 2014
Superconducting quantum memory with a suspended coaxial resonator
L Krayzman, CU Lei, S Ganjam, J Teoh, L Frunzio, RJ Schoelkopf
Applied Physics Letters 124 (20), 2024
Multimode superconducting cavity resonators
CU Lei, S Ganjam, L Krayzman, L Frunzio
US Patent App. 18/277,505, 2024
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Articles 1–20