Follow
Changchun Zhong
Changchun Zhong
Professor, Department of Physics, Xi'an Jiaotong University
Verified email at yale.edu - Homepage
Title
Cited by
Cited by
Year
Waveguide cavity optomagnonics for microwave-to-optics conversion
N Zhu, X Zhang, X Han, CL Zou, C Zhong, CH Wang, L Jiang, HX Tang
Optica 7 (10), 1291-1297, 2020
1372020
Cavity piezo-mechanics for superconducting-nanophotonic quantum interface
X Han, W Fu, C Zhong, CL Zou, Y Xu, AA Sayem, M Xu, S Wang, R Cheng, ...
Nature communications 11 (1), 3237, 2020
1222020
Proposal for heralded generation and detection of entangled microwave–optical-photon pairs
C Zhong, Z Wang, C Zou, M Zhang, X Han, W Fu, M Xu, S Shankar, ...
Physical review letters 124 (1), 010511, 2020
982020
Floquet cavity electromagnonics
J Xu, C Zhong, X Han, D Jin, L Jiang, X Zhang
Physical Review Letters 125 (23), 237201, 2020
622020
Radiative cooling of a superconducting resonator
M Xu, X Han, CL Zou, W Fu, Y Xu, C Zhong, L Jiang, HX Tang
Physical Review Letters 124 (3), 033602, 2020
502020
Cavity electro-optic circuit for microwave-to-optical conversion in the quantum ground state
W Fu, M Xu, X Liu, CL Zou, C Zhong, X Han, M Shen, Y Xu, R Cheng, ...
Physical Review A 103 (5), 053504, 2021
452021
Decoherence of rotational degrees of freedom
C Zhong, F Robicheaux
Physical Review A 94, 052109, 2016
442016
Entanglement of microwave-optical modes in a strongly coupled electro-optomechanical system
C Zhong, X Han, HX Tang, L Jiang
Physical Review A 101 (3), 032345, 2020
382020
Non-extremal Kerr black holes as particle accelerators
S Gao, C Zhong
Physical Review D—Particles, Fields, Gravitation, and Cosmology 84 (4), 044006, 2011
382011
Particle collisions near the cosmological horizon of a Reissner-Nordström-de Sitter black hole
C Zhong, S Gao
JETP letters 94, 589-592, 2011
362011
Microwave and optical entanglement for quantum transduction with electro-optomechanics
C Zhong, X Han, L Jiang
Physical Review Applied 18 (5), 054061, 2022
30*2022
Shot-noise-dominant regime for ellipsoidal nanoparticles in a linearly polarized beam
C Zhong, F Robicheaux
Physical Review A 95 (5), 053421, 2017
292017
Non-classical microwave–optical photon pair generation with a chip-scale transducer
S Meesala, S Wood, D Lake, P Chiappina, C Zhong, AD Beyer, MD Shaw, ...
Nature Physics, 1-7, 2024
282024
Coherent Gate Operations in Hybrid Magnonics
J Xu, C Zhong, X Han, D Jin, L Jiang, X Zhang
Physical Review Letters 126 (20), 207202, 2021
252021
Coherent pulse echo in hybrid magnonics with multimode phonons
J Xu, C Zhong, X Zhou, X Han, D Jin, SK Gray, L Jiang, X Zhang
Physical Review Applied 16 (2), 024009, 2021
202021
Quantum transduction is enhanced by single mode squeezing operators
C Zhong, M Xu, A Clerk, HX Tang, L Jiang
Physical Review Research (Letter) 4, L042013, 2022
112022
Quantum entanglement between optical and microwave photonic qubits
S Meesala, D Lake, S Wood, P Chiappina, C Zhong, AD Beyer, MD Shaw, ...
Physical Review X 14 (3), 031055, 2024
82024
Quantum kerr learning
J Liu, C Zhong, M Otten, A Chandra, CL Cortes, C Ti, SK Gray, X Han
Machine Learning: Science and Technology 4 (2), 025003, 2023
82023
Slow-wave hybrid magnonics
J Xu, C Zhong, S Zhuang, C Qian, Y Jiang, A Pishehvar, X Han, D Jin, ...
Physical Review Letters 132 (11), 116701, 2024
62024
Ground-state pulsed cavity electro-optics for microwave-to-optical conversion
W Fu, M Xu, X Liu, CL Zou, C Zhong, X Han, M Shen, Y Xu, R Cheng, ...
arXiv preprint arXiv:2010.11392, 2020
62020
The system can't perform the operation now. Try again later.
Articles 1–20