量子通信方向:

  1. Tao Wang, Peng Huang*, Hongxin Ma, Shiyu Wang, and Guihua Zeng, Carrier synchronization for continuous-variable measurement-device-independent quantum key distribution with a real local oscillator, Physical Review A, 104, 022606 (2021).

  2. Ping Wang, Peng Huang*, Rui Chen, and Guihua Zeng, Robust frame synchronization for free-space continuous-variable quantum key distribution, Optics Express, 29: 433194 (2021)

  3. Lang Li, Peng Huang*, Tao Wang, and Guihua Zeng?, Practical security of a chip-based continuous-variable quantum-key-distribution system, Physical Review A, 103, 032611 (2021).

  4. Shiyu Wang, Peng Huang, Tao Wang, Guihua Zeng*, Dynamic polarization control for free-space continuous-variable quantum key distribution, Optics Letters, 45: 5921 (2020).

  5. Shiyu Wang, Peng Huang*, Miaomiao Liu, Tao Wang, Ping Wang, Guihua Zeng, Phase compensation for free-space continuous-variable quantum key distribution, Optics Express, 28: 10737 (2020)

  6. Peng Huang*, Guihua Zeng*, Entanglement transmission through dense scattering medium, New Journal of Physics, 22: 053021, 2020.

  7. Geng Chai, Peng Huang*, Zhengwen Cao, Guihua Zeng, Suppressing excess noise for atmospheric continuous-variable quantum key distribution via adaptive optics approach, New Journal of Physics, 22: 103009, 2020.

  8. H. Ma, P. Huang*, D. Bai, T. Wang, W. Bao, G. Zeng, Long-distance continuous-variable measurement-device-independent quantum key distribution with discrete modulation, Physical Review A, 99, 022322 (2019).

  9. S. Wang, P. Huang, T. Wang, G. Zeng*, Feasibility of All-Day Quantum Communication with Coherent Detection, Physical Review Applied, 12: 024041, 2019.

  10. H. Ma, P. Huang*, T. Wang, D. Bai, S. Wang, W. Bao, G. Zeng, Security bound of continuous-variable measurement-device-independent quantum key distribution with imperfect phase reference calibration, Physical Review A, 100, 052330 (2019).

  11. Y. Zheng, P. Huang*, A. Huang, et al., Practical security of continuous-variable quantum key distribution with reduced optical attenuation, Physical Review A, 100, 012313, 2019.

  12. T. Wang, P. Huang*, S. Wang, G. Zeng, Carrier-phase estimation for simultaneous quantum key distribution and classical communication using a real local oscillator, Physical Review A, 99, 022318, 2019.

  13. G. Chai, Z. Cao, W. Liu, S. Wang, P. Huang*, J. Peng, G. Zeng, Parameter estimation of atmospheric continuous-variable quantum key distribution, Physical Review A, 99, 032326 (2019).

  14. D. Li, P. Huang*, T. Wang, et al, Phase compensation based on step-length control in continuous-variable quantum key distribution, Optics Express. 27: 20670 (2019).

  15. Y. Zheng, P. Huang*, A. Huang and G. Zeng*, Security analysis of practical continuous-variable quantum key distribution systems under laser seeding attack, Optics Express. 27: 27369 (2019).

  16. Tao Wang, Peng Huang*, S. Wang, et al, Polarization-state tracking based on Kalman filter in continuous-variable quantum key distribution, Optics Express, 27: 26689 (2019).

  17. Peng Huang*, Jingzheng Huang, Zheshen Zhang, Guihua Zeng*, Quantum key distribution using basis encoding of Gaussian-modulated coherent states, Physical Review A, 97, 042311, 2018.

  18. H. Ma, P. Huang*, D. Bai, T. Wang, W. Bao, G. Zeng, Continuous-variable measurement- device-independent quantum key distribution with photon subtraction, Physical Review A, 97, 042329 (2018).

  19. W. Liu#, P. Huang# (共同一作), J. Peng, J. Fan and G. Zeng*, Integrating machine learning to achieve an automatic parameter prediction for practical continuous-variable quantum key distribution, Physical Review A, 97, 022316, 2018.

  20. Tao Wang, Peng Huang*, Yingming Zhou, et al, High key rate continuous-variable quantum key distribution with a real local oscillator, Optics Express, 26, 2794, 2018.

  21. Shiyu Wang, Peng Huang*, Tao Wang, Guihua Zeng, Atmospheric effects on continuous-variable quantum key distribution, New Journal of Physics, 20: 083037, 2018.

  22. Peng Huang*, Jingzheng Huang, Tao Wang, Huasheng Li, Duan Huang, Guihua Zeng*, Robust continuous-variable quantum key distribution against practical attacks. Physical Review A, 95(5):052302, 2017.

  23. Xue-Qin Jiang, Peng Huang*, Duan Huang, Dakai Lin, Guihua Zeng*, Secret information reconciliation based on punctured low-density parity-check codes for continuous-variable quantum key distribution. Physical Review A, 95(2): 022318 (2017).

  24. Weiqi Liu, Jinye Peng, Peng Huang*, Duan Huang, Guihua Zeng*, Monitoring of continuous-variable quantum key distribution system in real environment. Optics Express, 25(16):19429 (2017).

量子传感方向:

  1. Miaomiao Liu, Hongjing Li∗ , Gongling Wang, Binke Xia, Jingzheng Huang and Guihua Zeng, High-precision temperature measurement with adjustable operating range based on weak measurement , J. Phys. B: At. Mol. Opt. Phys. 54, 085501 (2021). 

  2. Chen Fang , Binke Xia , Jing-Zheng Huang∗ , Tailong Xiao, Yang Yu, Hongjing Li and Guihua Zeng*, Hamiltonian estimation based on adaptive weak value amplification, J. Phys. B: At. Mol. Opt. Phys. 54,  075501 (2021). 

  3. Jing-Zheng Huang* , Yang Yu, Dongzi Zhao, Hongjing Li and Guihua Zeng, Effect of spectral resolution on weak-value based parameter estimation, J. Phys. B: At. Mol. Opt. Phys. 53, 215501 (2020). 

  4. Binke Xia ,* Jingzheng Huang,* Chen Fang, Hongjing Li, and Guihua Zeng*, High-Precision Multiparameter Weak Measurement with Hermite-Gaussian Pointer, Phys. Rev. Appl. 13, 034023 (2020). 

  5. Hongjing Li, Yanjia Li, Jing-Zheng Huang, Miaomiao Liu, and Guihua Zeng, Ultra-sensitive measurement of third-order optical nonlinearity via weak value amplification, Appl. Phys. Lett. 114, 161906  (2019). 

  6. YANJIA LI, HONGJING LI,* JINGZHENG HUANG, CHENG FANG, MIAOMIAO LIU, CHAOZHENG HUANG, AND GUIHUA ZENG, High-precision temperature sensor based on weak measurement, Opt. Exp. 27, 21455 (2019). 

  7. Jingzheng Huang,* Yanjia Li, Chen Fang, Hongjing Li, and Guihua Zeng*, Toward ultrahigh sensitivity in weak-value amplification, Physical Review A 100, 012109 (2019). 

  8. Wenhuan Liu , Jingzheng Huang*, Yanjia Li, Hongjing Li, Chen Fang,Yang Yu and Guihua Zeng*,Parameter estimation via weak measurement with machine learning, J. Phys. B: At. Mol. Opt. Phys. 52,045504 (2019). 

  9. Chen Fang, Jing-Zheng Huang*, Hongjing Li, Yanjia Li, and Guihua Zeng*, Improving precision of Mach-Zehnder interferometer with compensation employing weak measurement, Appl. Phys. Lett. 115, 031101 (2019). 

  10. Tailong Xiao, Jingzheng Huang, Jianping Fan & Guihua Zeng*, Continuous-variable Quantum Phase Estimation based on Machine Learning,  Sci. Rep. 9,12410 (2019). 

  11. Hongjing Li, Jing-Zheng Huang, Yang Yu, Yanjia Li, Chen Fang, and Guihua Zeng*, High-precision temperature measurement based on weak measurement using nematic liquid crystals, APPLIED PHYSICS LETTERS 112, 231901 (2018). 

  12. Jing-Zheng Huang,* Chen Fang, and Guihua Zeng,* Weak-value-amplification metrology without spectral analysis, Physical Review A 97, 063853 (2018). 

  13. Chen Fang, Jing-Zheng Huang,* and Guihua Zeng, Robust interferometry against imperfections based on weak value amplification, Physical Review A 97, 063818 (2018). 

  14. Fei Li, Jingzheng Huang*, and Guihua Zeng, Adaptive weak-value amplification with adjustable postselection, Physical Review A 96, 032112 (2017). 

  15. Chen Fang, Jing-Zheng Huang*, Yang Yu, Qinzheng Li and Guihua Zeng*,Ultra-small time-delay estimation via a weak measurement technique with post-selection, J. Phys. B: At. Mol. Opt. Phys. 49, 175501 (2016). 

  16. Jing-Zheng Huang, Qin-Zheng Li, Chen Fang and Gui-Hua Zeng, Hyperentanglement-enhanced weak value amplification with high-order correlation function, J. Phys. B: At. Mol. Opt. Phys.48 195501 (2015).