ZLab

Publications in time order

Unpublished 2025 2024 2023 2022 2021 2020 2019 2018 2017 Reviews

Unpublished

A passive optical isolator
D.-K. Chai#, J.-B. Zheng#, Z.-B. Wang✉, G.-J. Chen, Y.-L. Zhang, C.-H. Dong, C.-L. Zou✉, G.-C. Guo, M.-Y. Ye, G.-W. Lin, and X.-M. Lin✉.
Submitted (2024);
Autonomous frequency locking for zero-offset microcomb
M. Li, F.-Y. Yang, J. Lu, G.-C. Guo, C.-L. Zou✉.
Submitted (2024); see also arXiv: 2403.02868
Experimental demonstration of reconstructing quantum states with generative models
X. Li#, W. Jiang#, Z. Hua#, W. Wang✉, X. Pan, W. Cai, Z. Lu, J. Han, R. Wu, C.-L. Zou, D.-L. Deng✉, L. Sun✉.
Submitted (2024); see also arXiv: 2407.15102
Dynamic compensation for pump-induced frequency shift in Kerr-cat qubit initialization
Y. Xu#, Z. Hua#, W. Wang✉, Y. Ma, M. Li, J. Chen, J. Zhou, X. Pan, L. Xiao, H. Huang, W. Cai, H. Ai, Y.-x. Liu, C.-L. Zou✉, L. Sun✉
Submitted (2024); see also arXiv: 2408.14112
Photonic time-delayed reservoir computing based on lithium niobate microring resonators
Y. Wang, M. Li, M. Gao, C.-L. Zou, C.-H. Dong, X. Yang, Q. Xuan, H. Ren✉.
Submitted (2024); see also arXiv: 2408.13476
Engineering the Nonlinearity of Bosonic Modes with a Multi-loop SQUID
Z. Hua, Y. Xu, W. Wang, Y. Ma, J. Zhou, W. Cai, H. Ai, Y.-x. Liu, M. Li✉, C.-L. Zou✉, L. Sun✉.
Submitted (2024); see also arXiv: 2410.06904
Proposal of quantum repeater architecture based on Rydberg atom quantum processors
Y.-L. Zhang, Q.-X. Jie, M. Li, S.-H. Wu, Z.-B. Wang, X.-B. Zou, P.-F. Zhang, G. Li✉, T. Zhang, G.-C. Guo, C.-L. Zou✉.
Submitted (2024); see also arXiv: 2410.12523
Cooperative quantum interface for noise mitigation in quantum networks
Y.-L. Zhang#, M. Li#, X.-B. Xu, C.-H. Dong, G.-C. Guo, Z.-L. Xiang✉, C.-L. Zou✉, and X.-B. Zou✉.
Submitted (2024); see also arXiv: 2411.13158
Fundamental limits of free-space microwave-to-optical frequency conversion efficiency using Rydberg atoms
Y.-N. Lv, Y.-L. Zhang✉, X.-B. Zou, G.-C. Guo, S.-M. Hu, and C.-L. Zou✉.
Submitted (2024); see also arXiv: 2411.13160
On-chip 7 GHz acousto-optic modulators for visible wavelengths
J.-Z. Zhang, Y. Zeng, Q. Qin, Y.-H. Yang, Z.-H. Tian, J.-Q. Wang, C.-H. Dong, X.-B. Xu✉, M.-Y. Ye, G.-C. Guo, C.-L. Zou✉.
Submitted (2024); see also arXiv: 2411.15607
On-chip Brillouin Amplifier in Suspended Lithium Niobate Nanowaveguides
S. Yu, R. Zhou, G. Yang, Q. Zhang, H. Zhu, Y. Yang, X.-B. Xu, B. Chen, C.-L. Zou✉, J. Lu✉.
Submitted (2024); see also arXiv: 2412.11748
Robust and optimal control of open quantum systems
Z.-J. Chen#, H. Huang#, Lida Sun#, Q.-X. Jie, J. Zhou, Z. Hua, Y. Xu, W. Wang, G.-C. Guo, C.-L. Zou✉, L. Sun✉, and X.-B. Zou✉.
Submitted (2024);

2025

Multifunctional metalens for trapping and characterizing single atoms
G.-J. Chen#, D. Zhao#, Z.-B. Wang#, Z. Li, J.-Z. Zhang, L. Chen, Y.-L. Zhang, X.-B. Xu, A.-P. Liu, C.-H. Dong✉, G.-C. Guo, K. Huang✉, C.-L. Zou✉.
Laser&Photonics Review, accepted (2025); see also arXiv: 2411.05501
Integrated photonic nonreciprocal devices based on susceptibility-programmable medium
Y.-L. Zhang#, M. Li#, X.-B. Xu, Z.-B. Wang, C.-H. Dong, G.-C. Guo, C.-L. Zou✉, X.-B. Zou✉.
Laser&Photonics Review, accepted (2025); see also arXiv: 2409.01106
Self-induced optical non-reciprocity
Z.-B. Wang#, Y.-L. Zhang#, X.-X. Hu, G.-J. Chen, M. Li, P.-F. Yang, X.-B. Zou, P.-F. Zhang✉, C.-H. Dong✉, G. Li✉, T.-C. Zhang, G.-C. Guo, C.-L. Zou✉.
Light: Science and Applications, accepted (2024); see also arXiv:2210.07038
Massively parallel Hong-Ou-Mandel interference based on independent soliton microcombs
L. Huang#, W. Wang#, F. Wang#, Y. Wang, C.-L. Zou, L. Tang, B. E. Little, W. Zhao, Z. Han, J. Yang, G. Wang✉, W. Chen✉ and W. Zhang✉.
Science Advances, accepted (2024);
Minutes-scale Schrödinger-cat state of spin-5/2 atoms
Y. Yang , W.-T. Luo , J.-L. Zhang , S.-Z. Wang , C.-L. Zou , T. Xia✉, Z.-T. Lu✉.
Nature Photonics, accepted (2024), see also arXiv: 2410.09331
Better qubits through phononic engineering
C.-L. Zou✉ and L. Sun✉.
Nature Physics, accepted (2025)
Post-selection shifts the transition frequency of helium in an atomic beam
J.-L. Wen#, J.-D. Tang#, Y.-N. Lv#, Y. R. Sun✉, C.-L. Zou✉, J.-F. Dong, S.-M. Hu✉.
Science Advances, accepted (2025); see also arXiv: 2411.09958

2024

Stimulated Brillouin interaction between guided phonons and photons in a lithium niobate waveguide
Y.-H. Yang#, J.-Q. Wang#, Z.-X. Zhu, X.-B. Xu, Q. Zhang, J. Lu, Y. Zeng, C.-H. Dong, L. Sun, G.-C. Guo, C.-L. Zou✉.
Science China-Phys. Mech. Astron. 67, 214221 (2024)
Magnetic-free Faraday rotation in an atomic vapor cell
J.-B. Zheng, D.-K. Chai, Z.-B. Wang✉, G.-J. Chen✉, Y.-D. Hu, L. Chen, H.-J. Fan, Y.-L. Zhang, C.-H. Dong, C.-L. Zou✉, G.-C. Guo, M.-Y. Ye, G.-W. Lin, and X.-M. Lin.
Optics Express 32(1), 313-324 (2024)
Polarization-insensitive vortex beam generator by the holographic grating on integrated multi-layer waveguide
A. Liu✉, Z. Li, C.-L. Zou, J. She, Q. Wang✉, and X. Ren.
Optics Letters 49(1), 97-100 (2024)
Break the efficiency limitations of dissipative Kerr soliton using nonlinear couplers
M. Li, X.-X. Xue, Y.-L. Zhang, X.-B. Xu, C.-H. Dong✉, G.-C. Guo, C.-L. Zou✉.
Science China-Phys. Mech. Astron. 67, 234211 (2024); see also arXiv:2203.08453
Protecting quantum entanglement between error-corrected logical qubits
W. Cai, X. Mu, W. Wang, J. Zhou, Y. Ma, X. Pan, Z. Hua, X. Liu, G. Xue, H. Yu, H. Wang, Y. Song, C.-L. Zou✉, L. Sun✉.
Nature Physics 20, 1022–1026 (2024); see also arXiv:2302.13027
Measurement of nanofiber mechanical flexural modes based on near-field scattering
L. Song, C. Wang, Y. Hu, J. Zhou, Q. Zhang, C.-L. Zou, G. Li, P. Zhang✉, and T. Zhang✉.
Physical Review Letters 132, 033801 (2024)
Repetition rate tuning and locking of soliton in microrod resonator
R. Niu, S. Wan, S.-M. Sun, T.-G. Ma, H.-J. Chen, W.-Q. Wang, Z. Lu, W.-F. Zhang, G.-C. Guo, C.-L. Zou✉, and C.-H. Dong✉.
Optics Letters 49(3), 570-573 (2024)
Atom-referenced and stabilized soliton microcomb
R. Niu, S. Wan, T.-P. Hua, W.-Q. Wang, Z.-Y. Wang, J. Li, Z.-B. Wang, M. Li, Z. Shen, Y. R. Sun, S.-M. Hu, B. E. Little, S. T. Chu, W. Zhao, G.-C. Guo, C.-L. Zou✉, Y.-F. Xiao✉, W.-F. Zhang✉ & C.-H. Dong✉.
Science China Phys. Mech. Astron. 67, 224262 (2024).
Poling-assisted hydrofluoric acid wet etching of thin-film lithium niobate
S. Yu, H. Kang, X. Shen, Y. Xue, W. Wan, C.-L. Zou, B. Chen, and J. Lu✉.
Optics Letters 49, 854-857 (2024)
Numerical analysis of on-chip acousto-optic modulators for visible wavelengths
Q. Qin, J.-Z. Zhang, Y.-H. Yang, X.-B. Xu, Y. Zeng, J.-Q. Wang, C.-L. Zou✉, G.-C. Guo, X.-M. Lin✉, M.-Y. Ye✉.
Applied Optics 63, 1719-1726 (2024);
Low power consumption grating magneto-optical trap based on planar elements
Z. Yu#, Y. Zhu#, M. Yao, F. Qi, L. Chen, C.-L. Zou, J. Duan, and X. Liu✉.
Optics Express 32(6), 8919-8928 (2024); see also arXiv:2401.08145
Photonic time-delayed reservoir computing based on series-coupled microring resonators with high memory capacity
H. Ren✉, Y. Li, M. Li, M.Y. Gao, C.-L. Zou, C.-H. Dong, J. Lu, Y. Qin, X.N. Yang, Q. Xuan.
Optics Express 32, 11202 (2024); see also arXiv:2308.15902
Multimode sensing in a whispering gallery mode resonator enabled by transfer machine learning
Y. Wang, J. Lu, Y. Zhu, C.-L. Zou, C.-H. Dong, X. Yang, Q. Xuan, H. Ren✉.
IEEE Sensors Journal 24, 11843 (2024)
Enhancing single-atom loading in tightly confined dipole traps with an ancillary dipole beam
G.-J. Chen, Z.-B. Wang, C. Gu, D. Zhao, J.-Z. Zhang, Y.-L. Zhang, C.-H. Dong, K. Huang✉, G.-C. Guo, C.-L. Zou✉.
Physical Review A 109, 043105 (2024); see also arXiv:2403.03068
Correlation measurement of few-phonon interference
Y. Wang#, Y.-L. Zhang#, Z. Shen✉, H.-Y. Kuang, C.-L. Zou, H. Jing, Y.-F. Xiao, G.-C. Guo, and C.-H. Dong✉.
Physical Review A 109, 033523 (2024)
Electro-optically tunable optical delay on a lithium niobate photonic chip
J.-Z. Zhang, J.-L. Chen, J.-W. Fan, J.-Q. Wang, Y.-H. Yang, X.-B. Xu, B.-H. Liu, W. Chen, G.-C. Guo, and C.-L. Zou✉.
Optics Letters 49, 3737-3740 (2024)
Dynamics and Resonance Fluorescence from a Superconducting Artificial Atom Doubly Driven by Quantized and Classical Fields
X. Ruan, J.-H. Wang, D. He, P. Song, S. Li, Q. Zhao, L. M. Kuang, J.-S. Tsai, C.-L. Zou, J. Zhang, D. Zheng, O. V. Astafiev, Y.-x. Liu, and Z. Peng✉.
Physical Review Research 6, 033064 (2024); see also arXiv: 2403.11142
Quantum-enhanced metrology with large Fock states
X. Deng#, S. Li#, Z.-J. Chen#, Z. Ni, Y. Cai, J. Mai, L. Zhang, P. Zheng, H. Yu, C.-L. Zou✉, S. Liu, F. Yan✉, Y. Xu✉, D. Yu✉.
Nature Physics 20, 1874-1880 (2024) ; see also arXiv:2306.12622
Proposal for atom traps with low power by surface plasmon polaritons on the short waveguide
A. Liu✉, Z. Kang, T. Wang, P. Zhang, X. Ren, C.-L. Zou✉, and Q. Wang.
Physical Review A 110, 013121 (2024)
Hybrid WDM/MDM (De) multiplexer based on Fabry-Perot resonators with Bragg grating reflectors
Yuan Wang, Jin Lu, Rui Niu, Chang-Ling Zou, Chunhua Dong, Xiaoniu Yang, Qi Xuan, and Hongliang Ren✉.
Journal of the Optical Society of America B 48, 1882-1891 (2024)
Fluorescence collection efficiency of atoms in dipole traps
G.-J. Chen, J.-J. Wang, Y.-N. Lv, H.-J. Fan, Z.-B. Wang, G. Li, C.-H. Dong, Y.-L. Zhang✉, G.-C. Guo, and C.-L. Zou✉.
Optics Letters 49(17), 5011-5014 (2024);
Nonlinearity-Enhanced Coutinues Microwave Detection Based on Stochastic Resonance
K.-D. Wu#, C. Xie#, C.-F. Li, G.-C. Guo, C.-L. Zou✉, G.-Y. Xiang✉.
Science Advances 10, ado8130 (2024); see also arXiv: 2402.00273
Proposal for Brillouin microwave-to-optical conversion on a chip [Invited]
Y.-H. Yang, J.-Q. Wang, X.-B. Xu✉, M. Li, Y.-L. Zhang, X. Pan, L. Xiao, W. Wang, G.-C. Guo, L. Sun, and C.-L. Zou✉.
Optical Materials Express 14(10), 2400-2412 (2024)
Standing-wave atom tweezer
G.-J. Chen, J.-J. Wang, Z.-B. Wang, D. Zhao, Y.-L. Zhang, A.-P. Liu, C.-H. Dong, K. Huang✉, G.-C. Guo, and C.-L. Zou✉.
Optics Express 32(22), 39039-39052 (2024)
Highlight: Editors' Pick
Unambiguous discrimination of general quantum operations
W. Cai, J.-N. Zhang✉, Z. Hua, W. Wang, X. Pan, X. Liu, Y. Ma, L. Hu, X. Mu, H. Wang, Y. Song, C.-L. Zou✉, L. Sun✉.
Science Advances 10, adq2529 (2024); see also arXiv: 2404.13317
Quantum state transfer between superconducting cavities via exchange-free interactions
J. Zhou, M. Li, W. Wang✉, W. Cai, Z. Hua, Y. Xu, X. Pan, G. Xue, H. Zhang, Y. Song, H. Yu, C.-L. Zou✉, L. Sun✉.
Physical Review Letters 133, 220801 (2024); see also arXiv: 2408.14076
Broadband visible frequency comb generation in a microbubble resonator
Z. Zhao, R. Dong, Y. Hu, T. Wu, Z. Feng, Z. Huang, Z. Huang, M. Li, C.-L. Zou, X. Sun, and Q. Lu✉.
Journal of Lightwave Technology, accepted (2024);

2023

Cavity-enhanced rotation of anisotropic molecular in optofluidic microbubble resonator
Q. Lu, L. Liao, J. Guo, L. Chen, Y. Hu, Y.-L. Zhang, C.-L. Zou✉, X. Wu, and S. Xie✉.
Laser&Photonics Review 17(2), 2200384 (2023);
Residual quantum effects beyond mean-field treatment in quantum optics systems
Y.-X. Huang, M. Li✉, Z.-J. Chen, X.-B. Zou, G.-C. Guo, C.-L. Zou✉.
Laser&Photonics Review 17(4), 2200599 (2023); see also arXiv:2111.14636
Experimental quantum end-to-end learning on a superconducting processor
X. Pan#, X. Cao, W. Wang, Z. Hua, W. Cai, X. Li, H. Wang, J. Hu, Y.P. Song, D.-L. Deng, C.-L. Zou, R.-B. Wu✉, and L. Sun✉.
NPJ Quantum Information 9, 18 (2023); see also arXiv:2203.09080
Non-reciprocal frequency conversion and mode routing in a microresonator
Z. Shen#, Y.-L. Zhang#, Y. Chen, Y.-F. Xiao, C.-L. Zou, G.-C. Guo, C.-H. Dong✉.
Physical Review Letters 130, 013601 (2023); see also arXiv:2111.07030
kHz-precision wavemeter based on reconfigurable microsoliton
R. Niu#, M. Li#, S. Wan, Y. R. Sun, S.-M. Hu, C.-L. Zou✉, G.-C. Guo, C.-H. Dong✉.
Nature Communications 14, 169 (2023).
Beating the break-even point with a discrete-variable-encoded logical qubit
Z. Ni, S. Li, X. Deng, Y. Cai, L. Zhang, W. Wang, Z.-B. Yang, H. Yu, F. Yan, S. Liu, C.-L. Zou, L. Sun✉, S.-B. Zheng✉, Y. Xu✉, D. Yu✉.
Nature 616, 56–60 (2023); see also arXiv:2211.09319
Controllable atomic collision in a tight optical dipole trap
Z.-B. Wang#, C.-y. Gu#, X.-X. Hu, Y.-T. Zhang, J.-Z. Zhang, G. Li, X.-D. He, X.-B. Zou, C.-H. Dong, G.-C. Guo, C.-L. Zou✉.
Optics Letters 48(4), 1064-1067 (2023); see also arXiv:2210.07121
Organic Synthetic Photonic Systems with Reconfigurable Parity-time Symmetry Breaking for Tunable Single-mode Microlasers
C. Zhang#, F.-J. Shu#, C.-L. Zou, H. Dong✉, J. Yao, Y. S. Zhao✉.
Advanced Materials 35(17), 2300054 (2023)
Nonlinear optical radiation of a lithium niobate microcavity
Y.-H. Yang#, X.-B. Xu#, J.-Q. Wang, M. Zhang, M. Li✉, Z.-X. Zhu, Z.-B. Wang, C.-H. Dong, W. Fang, H. Yu✉, Z. Li, G.-C. Guo, C.-L. Zou✉.
Physical Review Applied 19, 034087 (2023); see also arXiv:2204.07926
Quantum Non-Demolition Measurement on the Spin Precession of Laser-Trapped 171Yb Atoms
Y. A. Yang#, T. A. Zheng#, S.-Z. Wang, W.-K. Hu, C.-L. Zou, T. Xia✉, Z.-T. Lu✉.
Physical Review Applied 19, 054015 (2023); see also arXiv:2209.08218
Interplay between chirality and backscattering in whispering-gallery mode microresonators
C.-H. Yan, M. Li, X.-B. Xu, Y.-L. Zhang, X.-Y. Ma and C.-L. Zou✉.
Physical Review A 107, 033713 (2023).
Realization of switchable optical isolator on single-photon level by non-reciprocal cavity polariton
P. Yang#, M. Li#, X. Han, H. He, G. Li✉, C.-L. Zou✉, P. Zhang, Y. Qian, T. Zhang✉.
Laser&Photonics Review 17(7), 2200574 (2023); see also arXiv:1911.10300
Collective Microwave Response for Multiple Gate-Defined Double Quantum Dots
Ting Lin, Si-Si Gu, Yong-Qiang Xu, Shun-Li Jiang, Shu-Kun Ye, Bao-Chuan Wang, Hai-Ou Li, Guang-Can Guo, Chang-Ling Zou, Xuedong Hu, Gang Cao✉, and Guo-Ping Guo✉.
Nano Letters 23(10), 4176 (2023)
Cavity-enhanced optical bistability of Rydberg atoms
Qinxia Wang, Zhihui Wang, Yanxin Liu, Shijun Guan, Jun He, Chang-Ling Zou, Pengfei Zhang, Gang Li, and Tiancai Zhang✉.
Optics Letters 48, 2865 (2023)
Machine learning-assisted high-accuracy and large dynamic range thermometer in high-Q microbubble resonators
H. Chen, Z. Wang, Y. Wang, Changqiu Yu, Rui Niu, Chang-Ling Zou, Jin Lu, Chun-Hua Dong, and Hongliang Ren✉.
Optics Express 31, 16781-16794 (2023)
Deep quantum neural networks on a superconducting processor
X. Pan, Z. Lu, W. Wang, Z. Hua, Y. Xu, W. Li, W. Cai, X. Li, H. Wang, Y.-P. Song, C.-L. Zou, D.-L. Deng✉, L. Sun✉.
Nature Communications 14, 4006 (2023); see also arXiv:2212.02521
Proposal of a free-space-to-chip pipeline for transporting single atoms
A. Liu, J. Liu, Z. Kang, G.-J. Chen, X.-B. Xu, X. Ren, G.-C. Guo, Q. Wang✉, C.-L. Zou ✉.
Physical Review A 108, 033108 (2023) ; see also arXiv:2305.10743
Transporting cold atoms towards a GaN-on-sapphire chip via an optical conveyor belt
L. Xu, L.-X. Wang, G.-J. Chen, L. Chen, Y.-H. Yang, X.-B. Xu, A. Liu, C.-F. Li, G.-C. Guo, C.-L. Zou✉, G.-Y. Xiang ✉.
Chinese Physics Letters 40, 093701 (2023); see also arXiv:2305.07900
Multi-color continuous-variable quantum entanglement in dissipative Kerr solitons
M. Li, Y.-L. Zhang, X.-B. Xu, C.-H. Dong, G.-C. Guo, and C.-L. Zou✉.
Advanced Quantum Technology 6(12), 2300158 (2023); see also arXiv:2101.07734
Data augmentation using continuous conditional generative adversarial networks for regression and its application to improved spectral sensing
Y. Zhu, H. Su, P. Xu, Y. Xu, Y. Wang, C.-H. Dong, J. Lu, Z. Le, X. Yang, Q. Xuan, C.-L. Zou, H. Ren✉.
Optics Express, 31(23), 37722-37739 (2023).
Optimized detector tomography for photon-number-resolving detectors with hundreds of pixels
D.-S. Liu, J.-Q. Wang, C.-L. Zou, X.-F. Ren✉, G.-C. Guo.
Physical Review A 108, 052611 (2023); see also arXiv:2306.12622
Massive particle acceleration on a photonic chip via spatial-temporal modulation
M. Zhang#, X.-h. Yu#, X.-B. Xu, G.-C. Guo, C.-L. Zou✉.
Physical Review Applied 20, 054045 (2023); see also arXiv:2204.11543
Exceptional Entanglement Phenomena: Non-Hermiticity Meeting Nonclassicality
P.-R. Han#, F. Wu#, X.-J. Huang#, H. Wu, C.-L. Zou, W. Yi, M. Zhang, H. Li, K. Xu, D. Zheng, H. Fan, J. Wen✉, Z.-B. Yang✉ S.-B. Zheng✉.
Physical Review Letters 131, 260201 (2023); see also arXiv:2210.04494
Realization of quantum ground state in an optomechanical crystal cavity
Y. Wang, Z.-P. Shi, H.-Y. Kuang, X. Xi, S. Wan, Z. Shen, P.-Y. Wang, G.-T. Xu, X. Sun, C.-L. Zou, G.-C. Guo & C.-H. Dong✉.
Science China 66, 124213 (2023)

2022

Quadratic strong coupling in AlN Kerr cavity solitons
Z. Gong#, A. W. Bruch#, F. Yang, M. Li, J. Lu, J. B. Surya, C.-L. Zou, and H. X. Tang✉.
Optics Lettters 47(4), 746-749 (2022).
Fabrication of the high-Q Si3N4 microresonators for soliton microcombs
S. Wan, R. Niu, J.-L. Peng, J. Li, G.-C. Guo, C.-L. Zou, and C.-H. Dong✉.
Chinese Optics Lettters 20(3), 032201 (2022).
Single-sideband microwave-to-optical conversion in high-Q ferrimagnetic microspheres
C.-Z. Chai#, Z. Shen#, Y.-L. Zhang, H.-Q. Zhao, G.-C. Guo, C.-L. Zou, C.-H. Dong✉.
Photonics Research 10(3), 820-827 (2022); see also arXiv:2111.07325
Classical-to-quantum transition in multimode nonlinear systems with strong photon-photon coupling
Y.-X. Huang, M. Li✉, K. Lin, Y.-L. Zhang, G.-C. Guo, C.-L. Zou✉.
Physical Review A 105, 043707 (2022); see also arXiv:2111.09557
Plannar-integrated magneto-optical trap
L. Chen, C.-J. Huang, X.-B. Xu, Y.-C. Zhang, D.-Q. Ma, Z.-T. Lu, Z.-B. Wang, G.-J. Chen, J.-Z. Zhang, H. X. Tang, C.-H. Dong, W. Liu, G.-Y. Xiang, G.-C. Guo, and C.-L. Zou✉.
Physical Review Applied 17, 034031 (2022); see also arXiv:2107.07367
Quantum-enhanced radiometry via approximate quantum error correction
W. Wang#, Z.-J. Chen#, X. Liu#, W. Cai, Y. Ma, X. Mu, L. Hu, Y. Xu, H. Wang, Y. P. Song, X. -B. Zou, C. -L. Zou✉, L. Sun✉.
Nature Communications 13, 3214 (2022); see also arXiv:2103.10281
High-frequency traveling-wave phononic cavity with sub-micron wavelength
X.-B. Xu, J.-Q. Wang, Y.-H. Yang, W. Wang, Y.-L. Zhang, B.-Z. Wang, C.-H. Dong, L. Sun, G.-C. Guo, C.-L. Zou✉.
Applied Physics Letters 120, 163503 (2022); see also arXiv:2202.07217
Quantum interference between photons and single quanta of stored atomic coherence
X. Wang, J. Wang, Z. Ren, R. Wen, C.-L. Zou, G. A. Siviloglou✉, J. F. Chen✉.
Physical Review Letters 128, 083605 (2022); see also arXiv:2109.11148
High diffraction efficiency grating atom chip for magneto-optical trap
J. Duan, X. Liu✉, Y. Zhou, X.-B. Xu, L. Chen, C.-L. Zou✉, Z. Zhu, Z. Yu, N. Ru, J. Qu✉.
Optics Communications 513, 128087 (2022).
Near-field modulation of differently oriented single photon emitters with a plasmonic probe
X.-J. Liu#, Y.-K. Wu#, X.-Z. Qi, L. Lu, M. Li, C.-L. Zou, S.-Y. Ren, G.-P. Guo, G.-C. Guo, W. Zhu✉, X.-F. Ren✉.
Nano Letters 22(6), 2244–2250 (2022).
Thermal tuning of mode crossing and the perfect soliton crystal in a Si₃N₄ microresonator
J. Li, S. Wan, J.-L. Peng, Z.-Y. Wang, R. Niu, C.-L. Zou, G.-c. Guo, and C. Dong✉.
Optics Express 30, 13690-13698 (2022).
Multi-grating design for integrated single-atom trapping, manipulation, and readout
A. Liu, J. Liu, W. Peng, X.-B. Xu, G.-J. Chen, X. Ren, Q. Wang✉, C.-L. Zou✉.
Physical Review A 105, 053520 (2022); see also arXiv:2204.06149
All-optical synchronization of remote optomechanical systems
J. Li#, Z.-H. Zhou#, S. Wan#, Y.-L. Zhang, Z. Shen, M. Li✉, C.-L. Zou, G.-C. Guo, C.-H. Dong✉.
Physical Review Letters 129, 063605 (2022).
PRL Editors' Suggestion, Featured in Physics: Motion Synchronization Goes Long Distance
Single-mode photon blockade enhanced by bi-tone drive
M. Li#, Y.-L. Zhang#, S.-H. Wu, C.-H. Dong, G.-C. Guo, and C.-L. Zou✉.
Physical Review Letters 129, 043601 (2022).
Adiabatic conversion between gigahertz quasi-Rayleigh and quasi-Love modes for phononic integrated circuits
B.-Z. Wang, X.-B. Xu✉, Y.-L. Zhang, W. Wang, L. Sun, G.-C. Guo, C.-L. Zou✉.
Applied Physics Letters 121, 082201 (2022); see also arXiv:2202.06770
Superconducting cavity piezo-electromechanics: the realization of an acoustic frequency comb at microwave frequencies
X. Han, C.-L. Zou, W. Fu, M. Xu, Y. Xu, and H. X. Tang✉.
Physical Review Letters 129, 107701 (2022); see also arXiv:2208.07160
PRL Editors' Suggestion, Featured in Physics: Oscillating into the GHz Regime
Quantum interference between nonidentical single particles
K. Su, Y. Zhong, S. Zhang, J. Li, C.-L. Zou, Y. Wang✉, H. Yan✉, and S.-L. Zhu✉.
Physical Review Letters 129, 093604 (2022).
Inverse Faraday Effect in an Optomagnonic Waveguide
N. Zhu, X. Zhang, X. Han, C.-L. Zou, H. X. Tang✉.
Physical Review Applied 18, 024046 (2022); see also arXiv:2012.11119
Highly tunable broadband coherent wavelength conversion with a fiber-based optomechanical system
X. Xi, C.-L. Zou, C.-H. Dong✉, X. Sun✉.
Advanced Photonics 4(5), 056003 (2022); see also arXiv:2109.09918
Proposal for stable atom trapping on a GaN-on-Sapphire chip
A. Liu, L. Xu, X.-B. Xu, G.-J. Chen, P. Zhang, G.-Y. Xiang, G.-C. Guo, Q. Wang✉, C.-L. Zou✉.
Physical Review A 106, 033104 (2022); see also arXiv:2205.12153
Synthetic five-wave mixing in an integrated microcavity for visible-telecom entanglement generation
J.-Q. Wang#, Y.-H. Yang#, M. Li*, H.-Q. Zhou, X.-B. Xu, J.-Z. Zhang, C.-H. Dong, G.-C. Guo, C.-L. Zou✉.
Nature Communications 13, 6223 (2022); see also arXiv:2204.00992
Nonlinear Fano resonance without a continuum
Y.-N. Lv#, A.-W. Liu#, Y. Tan#, C.-L. Hu, T.-P. Hua, X.-B. Zou, Y. R. Sun✉, C.-L. Zou✉, G.-C. Guo, S.-M. Hu✉.
Physical Review Letters 129, 163201 (2022); see also arXiv:2203.12240
Saturated absorption spectroscopy of HD at 76 K
Q.-H. Liu, Y.-N. Lv, C.-L. Zou, C.-F. Cheng, S.-M. Hu✉.
Physical Review A 106, 062805 (2022)
Coherent Coupling between Phonons, Magnons, and Photons
Zhen Shen#, Guan-Ting Xu#, Mai Zhang#, Yan-Lei Zhang, Yu Wang, Cheng-Zhe Chai, Chang-Ling Zou, Guang-Can Guo, and Chun-Hua Dong✉.
Physical Review Letters 129, 243601(2022)
PRL Editors' Suggestion, Featured in Physics: Microsphere Pair Converts Microwaves to Light
On-chip converter of waveguide polarization mode to free-space optical angular momentum mode
A. Liu✉, W. Peng, Z. Li, X. Zhou, X.-F. Ren, C.-L. Zou, and Q. Wang✉.
Applied Physical Letters 121, 241106 (2022)

2021

Noiseless photonic non-reciprocity via optically-induced magnetization
X.-X. Hu#, Z.-B. Wang#, P. Zhang*, G.-J. Chen, Y.-L. Zhang, G. Li, X.-B. Zou, T. Zhang, H. X. Tang, C.-H. Dong*, G.-C. Guo, C.-L. Zou✉.
Nature Communications 12, 2389 (2021); see also arXiv:2009.09819
Efficient frequency conversion in a degenerate χ(2) microresonator
J.-Q. Wang#, Y.-H. Yang#, M. Li, X.-X. Hu, J. B. Surya, X.-B. Xu, C.-H. Dong, G.-C. Guo, H. X. Tang, and C.-L. Zou✉.
Physical Review Letters 126, 133601 (2021); see also arXiv: 2011.10352
Pockels soliton microcomb
A. W. Bruch, X. Liu, Z. Gong, J. B. Surya, M. Li, C.-L. Zou, H. X. Tang*.
Nature Photonics 15, 21-27 (2021); see also arXiv:2004.07708
Synthetic gauge field in a single optomechanical resonator
Y. Chen#, Y.-L. Zhang#, Z. Shen#, C.-L. Zou✉, G.-C. Guo, C.-H. Dong*
Physical Review Letters 126, 123603 (2021); see also arXiv:1908.04456
Photorefraction-induced Bragg scattering in cryogenic lithium niobate ring resonators
Y. Xu, A. A. Sayem, C.-L. Zou, L. Fan, H. X. Tang*.
Optics Letters 46(2), 432-435 (2021); see also arXiv: 2012.10775
Experimental demonstration of multimode microresonator sensing by machine learning
J. Lu, R. Niu, S. Wan, C.-H. Dong, Z. Le, Y. Qin, Y. Hu, W. Hu, C.-L. Zou✉, and H. Ren*.
IEEE Sensors Journal 21, 9046-9053 (2021); see also arXiv: 2011.10656
Rabi Resonance in Coherent Population Trapping-Microwave Mixing Scheme
X. Liu, Y.-N. Lv, S. Kang*, C.-L. Zou, J. Duan, N. Ru, and J. Qu*.
Optics Express 29(2), 2466-2477 (2021).
Superkinetic growth of oval organic semiconductor microcrystals for chaotic lasing
H. Dong, C. Zhang, F.-J. Shu, C.-L. Zou, Y. Yan, J. Yao, and Y. S. Zhao*.
Advanced Materials 33, 2100484 (2021).
Quantum hacking perceiving for quantum key distribution using temporal ghost imaging
F.-X. Wang#, J. Wu#, W. Chen*, S. Wang, D.-Y. He, Z.-Q. Yin, C.-L. Zou, G.-C. Guo, Z.-F. Han.
Physical Review Applied 15, 034051 (2021); see also arXiv:2012.14062
Proposal of unsupervised gas classification by multimode microresonator
Yulu Zhang, Jin Lu, Zichun Le, Chun-Hua Dong, Huan Zheng, Yali Qin, Peiqiong Yu, Weisheng Hu, Chang-Ling Zou and Hongliang Ren.
IEEE Photonics Journal 13(2), 5800111 (2021)
Phase-engineered bosonic quantum codes
Linshu Li, Dylan J. Young, Victor V. Albert, Kyungjoo Noh, Chang-Ling Zou, Liang Jiang*
Physical Review A 103, 062427 (2021); see also arXiv:1901.05358
Ultralow-threshold thin-film lithium niobate optical parametric oscillator
Juanjuan Lu, Ayed Al Sayem, Zheng Gong, Joshua B. Surya, Chang-Ling Zou, Hong X. Tang*.
Optica 8(4), 539-544 (2021); see also arXiv:2101.04735
Cavity electro-optic circuit for microwave-to-optical conversion in the quantum ground state
Wei Fu#, Mingrui Xu#, Xianwen Liu, Chang-Ling Zou, Changchun Zhong, Xu Han, Mohan Shen, Yuntao Xu, Risheng Cheng, Sihao Wang, Liang Jiang, and Hong X. Tang*.
Physical Review A 103, 053504 (2021); see also arXiv:2010.11392v1
Dissipatively Controlled Optomechanical Interaction via Cascaded Photon-Phonon Coupling
Zhen Shen, Yan-Lei Zhang, Chang-Ling Zou, Guang-Can Guo, and Chun-Hua Dong*.
Physical Review Letters 126, 163604 (2021); see also arXiv:2010.11392v1
Bidirectional interconversion of microwave and light with thin-film lithium niobate
Yuntao Xu#, Ayed Al Sayem#, Linran Fan, Chang-Ling Zou, Sihao Wang, Risheng Cheng, Wei Fu, Likai Yang, Mingrui Xu, Hong X. Tang*.
Nature Communications 12, 4453 (2021); see also arXiv:2012.14909
Experimental investigation of the angular symmetry of optical force in a solid dielectric
Xiang Xi, Jingwen Ma, Zhong-Hao Zhou, Xin-Xin Hu, Yuan Chen, C.-L. Zou✉, Chun-Hua Dong*, Xiankai Sun*.
Optica 8(11), 1435-1441 (2021); see also arXiv:2004.09828
Experimental simulation of open quantum system dynamics via Trotterization
J. Han#, W. Cai#, L. Hu, X. Mu, Y. Ma, Y. Xu, W. Wang, H. Wang, Y. P. Song, C.-L. Zou✉, and L. Sun*.
Physical Review Letters 127, 020504 (2021); see also arXiv:2108.02395
Perfect soliton crystals in the high-Q microrod resonator
Rui Niu, Shuai Wan, Zheng-Yu Wang, Jin Li, Wei-Qiang Wang, Wen-Fu Zhang, Guang-Can Guo, Chang-Ling Zou, Chun-Hua Dong*.
IEEE Photonics Technology Letters 33(15), 788-791 (2021).
High-efficiency arbitrary quantum operation on a high-dimensional quantum system
W. Cai#, J. Han#, L. Hu, Y. Ma, X. Mu, W. Wang, Y. Xu, Z. Hua, H. Wang, Y. P. Song, J.-N. Zhang, C.-L. Zou✉, L. Sun*.
Physical Review Letters 127, 090504 (2021); see also arXiv: 2010.11427
Fast spectroscopy based on a modulated soliton microcomb
R. Niu, Shuai Wan, Jin Li, Ruo-Can Zhao, Chang-Ling Zou, Guang-can Guo, and Chunhua Dong*.
IEEE Photonics Journal 13(4), 6801204 (2021).

2020

Towards 1% single photon anharmonicity with periodically-poled lithium niobate microring resonators
Juanjuan Lu, Ming Li, Chang-Ling Zou, Ayed Al Sayem, Hong X. Tang*.
Optica 7, 1654-1659 (2020); see also arXiv:2007.07411
Error-transparent operations on a logical qubit protected by quantum error correction
Y. Ma, Y. Xu, X. Mu, W. Cai, L. Hu, W. Wang, X. Pan, H. Wang, Y. P. Song, C.-L. Zou✉, L. Sun*.
Nature Physics 16, 827–831 (2020); see also arXiv:1909.06803
Photon-photon quantum phase gate in a photonic molecule with χ(2) nonlinearity
Ming Li, Yan-Lei Zhang, Hong X. Tang, Chun-Hua Dong*, Guang-Can Guo, C.-L. Zou✉.
Physical Review Applied 13, 044013 (2020); see also arXiv:1909.10839
Highlight: Editors' Suggestion
Cavity piezo-mechanics for superconducting-nanophotonic quantum interface
Xu Han, Wei Fu, Changchun Zhong, Chang-Ling Zou, Yuntao Xu, Ayed Al Sayem, Mingrui Xu, Sihao Wang, Risheng Cheng, Liang Jiang, Hong X. Tang*.
Nature Communications 11, 3237 (2020); see also arXiv:2001.09483
Radiative cooling of a superconducting resonator
Mingrui Xu, Xu Han, Chang-Ling Zou, Wei Fu, Yuntao Xu, Changchun Zhong, Liang Jiang, Hong X. Tang*.
Physical Review Letters 124, 033602 (2020); see also arXiv:1910.01203
Proposal for Heralded Generation and Detection of Entangled Microwave–Optical-Photon Pairs
Changchun Zhong*, Zhixin Wang, Changling Zou, Mengzhen Zhang, Xu Han, Wei Fu, Mingrui Xu, Shyam Shankar, Michel H. Devoret, Hong X. Tang, Liang Jiang*
Physical Review Letters 124, 010511 (2020); see also arXiv:1901.08228
Non-Reciprocity in High-Q Ferromagnetic Microspheres via Photonic Spin–Orbit Coupling.
Cheng-Zhe Chai, Hao-Qi Zhao, Hong X. Tang, Guang-Can Guo, Chang-Ling Zou, and Chun-Hua Dong*.
Laser & Photonic Review 14, 1900252 (2020).
Quantum Key Distribution with On‐Chip Dissipative Kerr Soliton
Fang-Xiang Wang, Weiqiang Wang*, Rui Niu, Xinyu Wang, Chang-Ling Zou, Chun-Hua Dong*, Brent E. Little, Sai T. Chu, Hang Liu, Penglei Hao, Shufeng Liu, Shuang Wang, Zhen-Qiang Yin, De-Yong He, Wenfu Zhang*, Wei Zhao, Zheng-Fu Han, Guang-Can Guo, Wei Chen*.
Laser & Photonic Review 14, 1900190 (2020), see also arXiv:1812.11415
Tunable Red, Green and Blue Single-mode Lasing in Heterogeneously Coupled Organic Spherical Microcavities
Yuxiang Du, Chang-Ling Zou, Chunhuan Zhang, Kang Wang, Chan Qiao, Jiannian Yao, Yong Sheng Zhao*.
Light: Science & Applications 9, 151 (2020).
Waveguide cavity optomagnonics for broadband multimode microwave-to-optics conversion
Na Zhu, Xufeng Zhang, Xu Han, Chang-Ling Zou, Changchun Zhong, Chiao-Hsuan Wang, Liang Jiang, Hong X. Tang*.
Optica 7(10), 1291-1297 (2020) ; see also arXiv:2005.06429
Photonic Dissipation Control for Kerr Soliton Generation in Strongly Raman-Active Media
Zheng Gong, Ming Li, Xianwen Liu, Yuntao Xu, Juanjuan Lu, Alexander bruch, Joshua B. Surya, Chang-Ling Zou, and Hong X. Tang*.
Physical Review Letters 125, 183901 (2020) ; see also arXiv:2009.14346
Tunable optofluidic liquid metal core microbubble resonator
Qijing Lu*, Xiaogang Chen, Xianlin Liu, Liang Fu, Chang-Ling Zou, and Shusen Xie*.
Optics Express 28(2), 2201-2209 (2020).
Saturating the quantum Cramér-Rao bound using LOCC
Sisi Zhou, Chang-Ling Zou, Liang Jiang*.
Quantum Science and Technology 5, 025005 (2020); see also arXiv:1809.06017
Multi-Parameter Sensing in a Multimode Self-Interference Micro-Ring Resonator by Machine Learning
Dong Hu, Chang-ling Zou, Hongliang Ren*, Jin Lu, Zichun Le, Yali Qin, Shunqin Guo, Chunhua Dong, and Weisheng Hu.
Sensors 20(3), 709 (2020)
Magnon-photon strong coupling for tunable microwave circulators
Na Zhu, Xu Han, Chang-Ling Zou, Mingrui Xu, Hong X. Tang*.
Physical Review A 101, 043842 (2020); see also arXiv:1912.07128
All-optical thermal control for second-harmonic generation in an integrated microcavity
Xin-Xin Hu, Jia-Qi Wang, Yuan-Hao Yang, Joshua B. Surya, Yan-Lei Zhang, Xin-Biao Xu, Ming Li, Chun-Hua Dong, Guang-Can Guo, Hong X. Tang, C.-L. Zou✉.
Optics Express 28(8), 11144-11155 (2020).
Perpendicular coupler for standing wave excitation and wavelength selection in high-Q silicon microresonators
Shuai Wan, Fang-Jie Shu, Rui Niu, Guang-Can Guo, Chang-Ling Zou, and Chun-Hua Dong*.
Optics Express 28(11), 15835-15843 (2020).
Frequency stabilization and tuning of breathing soliton in Si3N4 microresonators
Shuai Wan#, Rui Niu#, Zheng-Yu Wang, Jin-Lan Peng, Ming Li, Jin Li, Guang-Can Guo, C.-L. Zou✉, Chun-Hua Dong*.
Photonic Research 8(8),1342-1349(2020); see also arXiv:2004.00824
Design of micron-long superconducting nanowire perfect absorber for efficient high-speed single-photon detection
Risheng Cheng, Sihao Wang, Chang-Ling Zou, Hong X. Tang*.
Photonic Research 8 (8), 1260-1267 (2020); see also arXiv:2002.08398
Enhanced optomechanical entanglement and cooling via dissipation engineering
Yan-Lei Zhang, Chuan-Sheng Yang, Zhen Shen, Chun-Hua Dong, Guang-Can Guo, C.-L. Zou✉, Xu-Bo Zou*.
Physical Review A 101, 063836 (2020); see also arXiv:1910.04344
Gas identification in high-Q microbubble resonators.
Zhong-Di Peng, Chang-Qiu Yu, Hong-Liang Ren, Chang-Ling Zou, Guang-Can Guo, and Chun-Hua Dong*.
Optics Letters 45(16), 4440-4443 (2020)
High-acoustic-index-contrast phononic circuits: numerical modeling
Wance Wang, Mohan Shen, Chang-Ling Zou, Wei Fu, Zhen Shen, Hong X. Tang*.
Editor's Pick Journal of Applied Physics 128, 184503 (2020); see also arXiv:2006.15829
Tunable Optical Bandpass Filter via a Microtip-Touched Tapered Optical Fiber
Peng-Fei Zhang*, Li-Jun Song, C.-L. Zou✉, Xin Wang, Chen-Xi Wang, Gang Li, and Tian-Cai Zhang.
Chinese Physics Letters 37(10), 104201 (2020)
High frequency lithium niobate film-thickness-mode optomechanical resonator
Mohan Shen#, Jiacheng Xie#, Chang-Ling Zou, Yuntao Xu, Wei Fu, and Hong X. Tang*.
Applied Physics Letters 117, 131104 (2020)
Opto-fluidic-plasmonic liquid metal core microcavity
Qijing Lu, Xianlin Liu, Xiaogang Chen, Shusen Xie*, Xiang Wu*, C.-L. Zou✉, Chun-Hua Dong.
Applied Physics Letters 117, 161101 (2020)
Unidirectional transmission of single photons under non-ideal chiral photon-atom interactions
Cong-Hua Yan*, Ming Li, Xin-Biao Xu, Yan-Lei Zhang, Hao Yuan, and C.-L. Zou✉.
Physical Review A 102, 053719 (2020); see also arXiv:2009.14483
A mechanically tuned Kerr comb in a dispersion-engineered silica microbubble resonator
FangJie Shu, PeiJi Zhang, YanJun Qian, ZhengYu Wang, Shuai Wan, Chang-Ling Zou, GuangCan Guo, and ChunHua Dong*.
Science China Physics, Mechanics & Astronomy 63, 254211 (2020)

2019

Hardware-Efficient Quantum Random Access Memory with Hybrid Quantum Acoustic Systems
Connor T. Hann, Chang-Ling Zou, Yaxing Zhang, Yiwen Chu, Robert J. Schoelkopf, Steven M. Girvin, and Liang Jiang
Physical Review Letters 123, 250501 (2019); see also arXiv:1906.11340
Demonstration of quantum error correction and universal gate set on a binomial bosonic logical qubit
Ling Hu#, Yuwei Ma#, Weizhou Cai, Xianghao Mu, Yuan Xu, Weiting Wang, Yukai Wu, Haiyan Wang, Yipu Song, C.-L. Zou✉, S. M. Girvin, L-M. Duan, Luyan Sun*.
Nature Physics 15, 503–508 (2019); see also arXiv:1805.09072
Spectrotemporal shaping of itinerant photons via distributed nanomechanics
Linran Fan, Chang-Ling Zou, Na Zhu, Hong X. Tang*.
Nature Photonics 13, 323–327 (2019)
Highlight by Nature Photonics News & Views: Shaking the phase of light
Quantum generative adversarial learning in a superconducting quantum circuit
Ling Hu#, Shu-Hao Wu#, Weizhou Cai, Yuwei Ma, Xianghao Mu, Yuan Xu, Haiyan Wang, Yipu Song, Dong-Ling Deng*, C.-L. Zou✉, and Luyan Sun*.
Science Advances 5(1), eaav2761 (2019); see also arXiv:1808.02893
Highlight by New Scientist: Battling AI algorithm tested on a quantum computer for first time
Phononic integrated circuitry and spin-orbit interaction of phonons
Wei Fu#, Zhen Shen#, Yuntao Xu, Chang-Ling Zou, Risheng Cheng, Xu Han, and Hong X. Tang*.
Nature Communications 10, 2743 (2019)
Broadband on-chip single-photon spectrometer
Risheng Cheng, Chang-Ling Zou, Xiang Guo, Sihao Wang, Xu Han, and Hong X. Tang*.
Nature Communications 10, 4104 (2019); see also arXiv:1908.00824
Heisenberg-limited single-mode quantum metrology in a superconducting circuit
W. Wang#, Y. Wu#, Y. Ma, W. Cai, L. Hu, X. Mu, Y. Xu, Zi-Jie Chen, H. Wang, Y. P. Song, H. Yuan*, C.-L. Zou✉, L.-M. Duan*, and L. Sun*.
Nature Communications 10, 4382 (2019); see also arXiv:1901.09620
Non-Hermitian magnon-photon interference in an atomic ensemble
Rong Wen, Chang-Ling Zou, Xinyu Zhu, Peng Chen, Z. Y. Ou, J. F. Chen*, Weiping Zhang*.
Physical Review Letters 122, 253602 (2019); see also arXiv:1811.00307
Photonic integrated circuits with bound states in the continuum
Zejie Yu, Xiang Xi, Jingwen Ma, Hon Ki Tsang, Chang-Ling Zou, and Xiankai Sun*.
Optica 6(10), 1342-1348 (2019); see also arXiv:1908.00429
On-chip χ² microring optical parametric oscillator
Alexander W. Bruch, Xianwen Liu, Joshua B. Surya, Chang-Ling Zou, and Hong X. Tang*.
Optica 6(10), 1361-1366 (2019); see also arXiv:1909.07422
Cavity-enhanced optical controlling based on three-wave mixing in cavity-atom ensemble system
Xin-Xin Hu, Chang-Ling Zhao, Zhu-Bo Wang, Yan-Lei Zhang, Xu-Bo Zou, Chun-Hua Dong, Hong X. Tang, Guang-Can Guo, and C.-L. Zou✉
Optics Express 27(5), 6660-6671 (2019); see also arXiv:1807.08307
Infrared laser locking to Rubidium saturated absorption spectrum via a photonic chip frequency doubler
Jiacheng Xie, Jia-Qi Wang, Zhu-Bo Wang, Xin-Xin Hu, Xiang Guo, Rui Niu, Joshua B. Surya, Ji-Zhe Zhang, Chun-Hua Dong, Guang-Can Guo, Hong X. Tang, C.-L. Zou✉
Optics Letters 44(5), 1150-1153 (2019); see also arXiv:1901.00922
"Mobius" microring resonator
Xin-Biao Xu, Lei Shi*, Guang-Can Guo, Chun-Hua Dong, C.-L. Zou✉
Applied Physical Letters 114, 101106 (2019); see also arXiv:1807.11771
Flat-top optical filter via the adiabatic evolution of light in an asymmetric coupler
Xin-Biao Xu, Xiang Guo, Wei Chen, Hong X. Tang, Chun-Hua Dong, Guang-Can Guo, and C.-L. Zou✉.
Physical Review A 100(2), 023809 (2019).
Thermal bistability of magnon in yttrium iron garnet microspheres
Cheng-Zhe Chai, Xin-Xin Hu, Chang-Ling Zou, Guang-Can Guo, and Chun-Hua Dong*.
Applied Physical Letters 114, 021101 (2019).
Frequency-tunable high-Q superconducting resonators via wireless control of nonlinear kinetic inductance
Mingrui Xu#, Xu Han#, Wei Fu, Chang-Ling Zou, and Hong X Tang*.
Applied Physical Letters 114, 192601 (2019).
Deterministic generation and switching of dissipative Kerr soliton in a thermally controlled micro-resonator
Zhizhou Lu, Weiqiang Wang*, Wenfu Zhang*, Sai T. Chu, Brent E. Little, Mulong Liu, Leiran Wang, Chang-Ling Zou, Chun-Hua Dong, Bailing Zhao, Wei Zhao
AIP Advances 9, 025314 (2019); see also arXiv:1810.04983
Dissipative sensing with low detection limit in a self-interference microring resonator
Hongliang Ren*, Chang-Ling Zou, Jin Lu, Zichun Le, Yali Qin, Shuqin Guo, and Weisheng Hu.
J. Opt. Soc. Am. B 36(4), 942-951 (2019).
Collecting quantum dot fluorescence with a hybrid plasmonic probe
Ming Li, Xiao Xiong, Le Yu, Chang-Ling Zou, Yang Chen, Di Liu, Lan-Tian Feng, Guo-Ping Guo, Guang-Can Guo, and Xi-Feng Ren*.
OSA Continuum 2(3), 881-889 (2019); see also arXiv:1701.02935
Stokes and anti-Stokes Raman scatterings from frequency comb lines in poly-crystalline aluminum nitride microring resonators
Hojoong Jung, Zheng Gong, Xianwen Liu, Xiang Guo, Chang-ling Zou, and Hong X. Tang*.
Optics Express 27(16), 22246-22253 (2019).
Soliton microcomb generation at 2μm in z-cut lithium niobate microring resonators
Zheng Gong, Xianwen Liu, Yuntao Xu, Mingrui Xu, Joshua B. Surya, Juanjuan Lu, Alexander Bruch, Changling Zou, and Hong X. Tang*.
Optics Letters 44(12), 3182-3185 (2019).
Quantum states preparation of an atomic ensemble via cavity-assisted homodyne measurement
Yan-Lei Zhang, Chuan-Sheng Yang, C.-L. Zou✉, Tian Xia, Guang-Can Guo, Xu-Bo Zou*.
Journal of Physics B 52, 215003 (2019); see also arXiv:1809.04937
Polarization mode hybridization and conversion in phononic wire waveguides
Zhen Shen#, Wei Fu#, Ri-Sheng Cheng, Hendrick Townley, Chang-Ling Zou, Hong X. Tang*.
Applied Physical Letters 115, 201901 (2019); see also arXiv:1910.04427

2018

Experimental repetitive quantum channel simulation
Ling Hu#, Xianghao Mu#, Weizhou Cai, Yuwei Ma, Yuan Xu, Haiyan Wang, YiPu Song, Chang-Ling Zou*, Luyan Sun*
Science Bulletin 63, 1551-1557 (2018); see also arXiv:1807.07694
Superconducting cavity electro-optics: a platform for coherent photon conversion between superconducting and photonic circuits
Linran Fan, Chang-Ling Zou, Risheng Cheng, Xiang Guo, Xu Han, Zheng Gong, Sihao Wang, Hong X. Tang*.
Science Advances 4(8), eaar4994 (2018); see also arXiv:1805.04509
Efficient Generation of a Near-visible Frequency Comb via Cherenkov-like Radiation from a Kerr Microcomb.
Xiang Guo, Chang-Ling Zou, Hojoong Jung, Zheng Gong, Alexander Bruch, Liang Jiang, and Hong X. Tang*.
Physical Review Applied 10, 014012 (2018); see also arXiv:1704.04264
All-Optical control of linear and nonlinear energy transfer via Zeno effect
Xiang Guo, Chang-Ling Zou, Liang Jiang, and Hong X. Tang*.
Physical Review Letters 120, 203902 (2018); see also arXiv:1804.06921
Reconfigurable optomechanical circulator and directional amplifier
Zhen Shen#, Yan-Lei Zhang#, Yuan Chen#, Fang-Wen Sun*, Xu-Bo Zou, Guang-Can Guo, Chang-Ling Zou*, Chun-Hua Dong*.
Nature Communications 9, 1797 (2018); see also arXiv:1709.06236
Quantum transduction with adaptive control
Mengzhen Zhang, Chang-Ling Zou, Liang Jiang*.
Physical Review Letters 120, 020502(2018); see also arXiv:1706.06075
Efficient Third Harmonic Generation in Composite Aluminum Nitride / Silicon Nitride Microrings
Joshua B. Surya, Xiang Guo, Chang-Ling Zou, Hong X. Tang*.
Optica 5(2), 103-108 (2018); see also arXiv:1712.00059
High quality factor surface Fabry-Perot cavity of acoustic waves
Yuntao Xu, Wei Fu, Chang-ling Zou, Zhen Shen, and Hong X. Tang*.
Appllied Physical Letters 112, 073505 (2018); see also arXiv:1802.04788
Featured in AIP Scilight ;
One way quantum repeaters with quantum Reed-Solomon codes
Sreraman Muralidharan, Chang-Ling Zou, Linshu Li, Liang Jiang*.
Physical Review A 97, 052316 (2018); see also arXiv:1801.06706
Control of second-harmonic generation in doubly resonant aluminum nitride microrings to address a rubidium two-photon clock transition.
Joshua B. Surya, Xiang Guo, Chang-Ling Zou, Hong X. Tang*.
Optics Letters 3(11), 2696-2699 (2018) ; see also arXiv:1805.06476
Enhancement of second-harmonic generation based on the cascaded second- and third-order nonlinear processes in a multimode optical microcavity.
Ming Li, Chang-Ling Zou*, Chun-Hua Dong, Xi-Feng Ren, Dao-xin Dai*.
Physical Review A 98, 013854(2018); see also arXiv:1805.08388
Experimental Demonstration of Dissipative sensing in a Self-Interference Micro-Ring Resonator.
Shuai Wan#, Rui Niu#, Hong-Liang Ren, Chang-Ling Zou, Guang-Can Guo, and Chun-Hua Dong*.
Photonic Research 6(7), 681-685 (2018)
Enhanced absorption microscopy with correlated photon pairs.
Ming Li#, Chang-Ling Zou#, Di Liu, Guo-Ping Guo, Guang-Can Guo and Xi-Feng Ren*.
Physical Review A 98, 012121(2018); see also arXiv:1807.01454
Phase-Controlled Phonon Laser
Yan-Lei Zhang, Chang-Ling Zou, Chuan-Sheng Yang, Hui Jing*, Chun-Hua Dong, Guang-Can Guo, Xu-Bo Zou*
New Journal of Physics 20, 093005 (2018); see also arXiv:1706.02097
Optimal third-harmonic generation in an optical microcavity with chi(2) and chi(3) nonlinearities
Ming Li, Chang-Ling Zou, Chun-Hua Dong, Dao-xin Dai*.
Optics Express 26, 27294-27304 (2018); see also arXiv:1807.03517
Extreme terahertz electric-field enhancement in high-Q photonic crystal slab cavity with nanoholes
Qijing Lu, Xiaogang Chen, Chang-Ling Zou*, Shusen Xie*.
Editors' Pick Optics Express 26, 30851-30861 (2018); see also arXiv:1807.09568
Nondestructive measurement of nanofiber diameters using a microfiber tip
Pengfei Zhang#*, Fan Cheng, Xin Wang, Lijun Song, Chang-Ling Zou, Gang Li, and Tiancai Zhang.
Optics Express 26, 31500-31509 (2018).
Reconfigurable vortex beam generator based on the Fourier transformation principle
Aiping Liu, Chang-Ling Zou*, Xifeng Ren, Wen He, Mengze Wu, Guangcan Guo, Qin Wang.
Optics Express 26, 31880-31888 (2018); see also arXiv:1804.03750
Broadband frequency conversion via adiabatically tapered χ(2) waveguide in photonic integrated circuits
Xiao Xiong, Chang-Ling Zou*, Xiang Guo, Hong X. Tang, Xi-Feng Ren*, and Guang-Can Guo.
OSA Continuum 1(4), 1349-1359 (2018); see also arXiv:1609.09221

2017

Phase sensitive imaging of 10 GHz vibrations in an AlN microdisk resonator
Zhen Shen, Xu Han, Chang-Ling Zou, and Hong X. Tang*.
Editors-pick Review of Scientific Instruments 88, 123709 (2017), ; see also arXiv:1712.01273
Dual-Color Single-Mode Lasing in Axially Coupled Organic Nanowire Resonators
Chunhuan Zhang#, Chang-Ling Zou#, Haiyun Dong, Yongli Yan, Jiannian Yao, and Yong Sheng Zhao*.
Science Advances (AAAS) 3(7), e1700225 (2017);
Cat codes with optimal decoherence suppression for a lossy bosonic channel
Linshu Li, Chang-Ling Zou, Victor V. Albert, Sreraman Muralidharan, S. M. Girvin, Liang Jiang
Physical Review Letters 119, 030502 (2017); see also arXiv:1609.06386
Parametric down-conversion photon pair source on a nanophotonic chip
Xiang Guo*, Chang-Ling Zou, Carsten Schuck, Hojoong Jung, Risheng Cheng, Hong X. Tang*.
Light: Science and Applications 6, e16249 (2017); see also arXiv:1603.03726
Overcoming erasure errors with multilevel systems
Sreraman Muralidharan, Chang-Ling Zou, Linshu Li, Jianming Wen, and Liang Jiang*.
New Journal of Physics 19, 013026 (2017); see also arXiv:1504.08054
Optomechanical devices based on traveling-wave microresonators
Yan-Lei Zhang, Chun-Hua Dong, Chang-Ling Zou*, Xu-Bo Zou*, Ying-Dan Wang, Guang-Can Guo
Phys. Rev. A 95, 043815 (2017); see also arXiv:1702.01500
A figure of this paper is selected as Kaleidoscope link;
Broadband tuning of the optical and mechanical modes in hollow bottle-like microresonators
Zhong-Hao Zhou, Chang-Ling Zou, Yuan Chen, Zhen Shen, Guang-Can Guo, and Chun-Hua Dong*.
Optics Express 25 (4), 4046-4053 (2017).
Tunable Add-Drop Filter With Hollow Bottle-Like Microresonators
Zhong-Hao Zhou, Yuan Chen, Zhen Shen, Chang-Ling Zou, Guang-Can Guo, and Chun-Hua Dong*.
IEEE Photonics Journal 25 (4), 4046-4053 (2017).
Tunable Raman laser in a hollow bottle-like microresonator
Yuan Chen, Zhong-Hao Zhou, Chang-Ling Zou, Zhen Shen, Guang-Can Guo, and Chun-Hua Dong*.
Optics Express 25 (14), 16879-16887 (2017).
Effect of unbalanced and common losses in quantum photonic integrated circuits
Ming Li, Chang-Ling Zou, Guang-Can Guo and Xi-Feng Ren*.
Chinese Optics Letters 15(9), 092701(2017); see also arXiv:1705.10472

Review Articles, Books, News

超导量子计算系统中的容错技术
陈子杰, 孙麓岩✉, 邹长铃✉.
物理 52(11), 751-760 (2023).
2023 Astrophotonics Roadmap: pathways to realizing multi-functional integrated astrophotonic instruments
N. Jovanovic, P. Gatkine, N. Anugu, R. Amezcua-Correa, R. B. Thakur, C. Beichman, C. Bender, J.-P. Berger, A. Bigioli, J. Bland-Hawthorn, G. Bourdarot, C. M. Bradford, R. Broeke, J. Bryant, K. Bundy, R. Cheriton, N. Cvetojevic, M. Diab, S. A. Diddams, A. N. Dinkelaker, J. Duis, S. Eikenberry, S. Ellis, A. Endo, D. F. Figer, M. Fitzgerald, I. Gris-Sanchez, S. Gross, L. Grossard, O. Guyon, S. Y. Haffert, S. Halverson, R. J. Harris, J. He, T. Herr, P. Hottinger, E. Huby, M. Ireland, R. Jenson-Clem, J. Jewell, L. Jocou, S. Kraus, L. Labadie, S. Lacour, R. Laugier, K. Ławniczuk, J. Lin, S. Leifer, S. Leon-Saval, G. Martin, F. Martinache45, M.-A. Martinod, B. Mazin, S. Minardi, J. D. Monnier, R. Moreira, D. Mourard, A. S. S. Nayak, B. Norris, E. Obrzud, K. Perraut, F. Reynaud, S. Sallum, D. Schiminovich, C. Schwab, E. Serbayn, S. Soliman, A. Stoll, L. Tang, P. Tuthill, K. Vahala, G. Vasisht, S. Veilleux, A. B. Walter, E. J. Wollack, Y. Xin, Z. Yang, S. Yerolatsitis, Y. Zhang, and C.-L. Zou.
J. Phys. Photonics5, 042501 (2023).
Entering the error-corrected quantum era
Z.-J. Chen, L. Sun✉, C.-L. Zou✉.
Science Bulletin 68(10), 961-963 (2023).
基于超导量子系统的量子纠错研究进展
陈子杰, 潘啸轩, 华子越, 王韦婷, 马雨玮, 李明, 邹旭波, 孙麓岩✉, 邹长铃✉.
物理学报 51(5), 0551302 (2022).
Emerging Material Platforms for Integrated Microcavity Photonics
J. Liu, F. Bo, L. Chang, C.-H. Dong, X. Ou, B. Regan, X. Shen, Q. Song, B. Yao, W. Zhang, C.-L. Zou, and Y.-F. Xiao.
Science China-Phys. Mech. Astron. 65, 104201 (2022).
Hybrid superconducting-photonic-phononic chip for quantum information processing
X.-B. Xu, W. Wang, L. Sun✉, C.-L. Zou✉.
Chip 1(2), 100016 (2022).
集成光子-原子芯片的研究进展（特邀）
刘爱萍✉,陈广杰,陈梁,徐新标,张延磊,王琴,邹长铃✉.
光子学报 51(5), 0551302 (2022).
基于回音壁微腔的可见光波段光频梳研究进展（特邀）
卢启景✉, 廖令琴, 舒方杰, 李明, 谢树森, 邹长铃✉.
红外与激光工程 51(5), 20220335 (2022).
基于回音壁微腔的非互易光子器件
汪昱,舒方杰✉,沈镇,柴诚哲,张延磊,董春华,邹长铃✉.
科学通报 65, 234231 (2022).
Vernier effect facilitates integrated lithium niobate single-mode lasers
X.-B. Xu, and C.-L. Zou✉.
Science China-Phys. Mech. Astron. 65, 234231 (2022).
Bosonic quantum error correction codes in superconducting quantum circuits
W. Cai#, Y. Ma#, W. Wang#, C.-L. Zou✉, L. Sun✉.
Fundamental Research 1, 51-69 (2021); see also arXiv: 2010.08699
Microwave-optical quantum frequency conversion
Xu Han, Wei Fu, Chang-Ling Zou, Liang Jiang, and Hong Tang✉.
Optica 8(8), 1050-1064 (2021).
[BOOK] Ultra-high-Q Optical Microcavities
Edited By: Yun-Feng Xiao, Chang-Ling Zou, Qihuang Gong, and Lan Yang.
November 2020, ISBN: 978-981-4566-06-3, DOI:10.1142/8964
超导量子计算中的玻色量子编码:量子纠错与逻辑比特操控的实验验证
胡玲,邹长铃,段路明,孙麓岩.
物理 48(7), 456-458 (2019)
Whispering‐gallery microcavities with unidirectional laser emission
Xue-Feng Jiang, Chang-Ling Zou, Li Wang, Qihuang Gong and Yun-Feng Xiao*,
Laser & Photonic Review 10(1), 40-61 (2016)
Front Cover link
Xiao Xiong, Chang-Ling Zou, Xifeng Ren*, Ai-Ping Liu, Yan-Xia Ye, Fangwen Sun, Guangcan Guo.
Silver Nanowire for photonic applications
Laser & Photonics Review 7(6), 901-919 (2013).
Whispering-Gallery Microresonator: Fundamental and Applications (Invited Review, in Chinese)
Chang-Ling Zou, Chun-Hua Dong, Yong Yang, Xiao-Wei Wu, Fang-Wen Sun, Zheng-Fu Han, Guang-Can Guo.
Science China, 42 1155-1175 (2012)
Asymmetric resonant cavities and their applications in optics and photonics: A Review
Yun-Feng Xiao*, Chang-Ling Zou*, Chun-Hua Dong, Yan Li, Qihuang Gong* and Zheng-Fu Han*.
Frontiers of Optoelectronics in China, 3(2): 109-124 (2010)