2023
- 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✉.
Submitted; see also arXiv:2203.08453
- 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✉.
Submitted; see also arXiv:2204.07926
- 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, Accepted (2023); see also arXiv:2210.07121
- 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, 202200599 (2022); see also arXiv:2111.14636
2022
- 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
- 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
- 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
- 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).
- 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
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
- 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
- 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
2020
- 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
M. Li, Y.-L. Zhang, H. X. Tang, C.-H. Dong✉, G.-C. Guo, C.-L. Zou✉.
Physical Review Applied 13, 044013 (2020); see also arXiv:1909.10839
Highlight: Editors' Suggestion
- Towards 1% single photon anharmonicity with periodically-poled lithium niobate microring resonators
J. Lu, M. Li, C.-L. Zou, A. A. Sayem, H. X. Tang✉.
Optica 7, 1654-1659 (2020); see also arXiv:2007.07411
- Radiative cooling of a superconducting resonator
M. Xu, X. Han, C.-L. Zou, W. Fu, Y. Xu, C. Zhong, L. Jiang, H. X. Tang✉.
Physical Review Letters 124, 033602 (2020); see also arXiv:1910.01203
- All-optical thermal control for second-harmonic generation in an integrated microcavity
X.-X. Hu, J.-Q. Wang, Y.-H. Yang, J. B. Surya, Y.-L. Zhang, X.-B. Xu, M. Li, C.-H. Dong, G.-C. Guo, H. X. Tang, C.-L. Zou✉.
Optics Express 28(8), 11144-11155 (2020).
2019
- Cavity-enhanced optical controlling based on three-wave mixing in cavity-atom ensemble system
X.-X. Hu, C.-L. Zhao, Z.-B. Wang, Y.-L. Zhang, X.-B. Zou, C.-H. Dong, H. X. Tang, G.-C. Guo, and C.-L. Zou✉.
Optics Express 27(5), 6660-6671 (2019); see also arXiv:1807.08307
- Demonstration of quantum error correction and universal gate set on a binomial bosonic logical qubit
L. Hu#, Y. Ma#, W. Cai, X. Mu, Y. Xu, W. Wang, Y. Wu, H. Wang, Y. Song, C.-L. Zou✉, S. M. Girvin, L-M. Duan, L. Sun✉.
Nature Physics 15, 503–508 (2019); see also arXiv:1805.09072
- Spectro-temporal shaping of itinerant photons via distributed nanomechanics
L. Fan, C.-L. Zou, N. Zhu, H. 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
L. Hu#, S.-H. Wu#, W. Cai, Y. Ma, X. Mu, Y. Xu, H. Wang, Y. Song, D.-L. Deng✉, C.-L. Zou✉, and L. 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
- Broadband on-chip single-photon spectrometer
R. Cheng, C.-L. Zou, X. Guo, S. Wang, X. Han, and H. X. Tang✉.
Nature Communications 10, 4104 (2019); see also see also arXiv:1908.00824
2018
- Experimental repetitive quantum channel simulation
L. Hu#, X. Mu#, W. Cai, Y. Ma, Y. Xu, H. Wang, Y. Song, C.-L. Zou✉, L. 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
L. Fan, C.-L. Zou, R. Cheng, X. Guo, X. Han, Z. Gong, S. Wang, H. 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.
X. Guo, C.-L. Zou, H. Jung, Z. Gong, A. Bruch, L. Jiang, and H. X. Tang✉.
Physical Review Applied 10, 014012 (2018); see also arXiv:1704.04264
- Reconfigurable optomechanical circulator and directional amplifier
Z. Shen#, Y.-L. Zhang#, Y. Chen#, F.-W. Sun✉, X.-B. Zou, G.-C. Guo, C.-L. Zou✉, C.-H. Dong✉.
Nature Communications 9, 1797 (2018); see also arXiv:1709.06236
- One way quantum repeaters with quantum Reed-Solomon codes
S. Muralidharan, C.-L. Zou, L. Li, L. Jiang✉.
Physical Review A 97, 052316 (2018); see also arXiv:1801.06706
2017
- Dual-Color Single-Mode Lasing in Axially Coupled Organic Nanowire Resonators
C. Zhang#, C.-L. Zou#, H. Dong, Y. Yan, J. Yao, and Y. S. Zhao✉.
Science Advances (AAAS) 3(7), e1700225 (2017);
- Cat codes with optimal decoherence suppression for a lossy bosonic channel
L. Li, C.-L. Zou, V. V. Albert, S. Muralidharan, S. M. Girvin, L. Jiang
Physical Review Letters 119, 030502 (2017); see also arXiv:1609.06386
- Parametric down-conversion photon pair source on a nanophotonic chip
X. Guo*, C.-L. Zou, C. Schuck, H. Jung, R. Cheng, H. X. Tang✉.
Light: Science and Applications 6, e16249 (2017); see also arXiv:1603.03726
- Overcoming erasure errors with multilevel systems
S. Muralidharan, C.-L. Zou, L. Li, J. Wen, and L. Jiang✉.
New Journal of Physics 19, 013026 (2017); see also arXiv:1504.08054
- Optomechanical devices based on traveling-wave microresonators
Y.-L. Zhang, C.-H. Dong, C.-L. Zou✉, X.-B. Zou✉, Y.-D. Wang, G.-C. Guo
Phys. Rev. A 95, 043815 (2017); see also arXiv:1702.01500
A figure of this paper is selected as Kaleidoscope link;