
基本信息
职称:讲师
电话:13142153489
邮箱:13142153489@163.com
地址:湖南省长沙市韶山南路498号中南林业科技大学计算机与数学学院(求是楼1510室)
个人简介:周健,男,博士,讲师,硕士生导师
学习经历
2009年9月—2013年6月 湖南大学数学与计量经济学院,数学与应用数学,本科
2013年9月—2016年6月 中南大学软件学院,软件工程,硕士
2016年9月—2019年6月 中南大学计算机与信息工程学院,博士
任职情况
2020.9—至今 中南林业科技大学计算机与信息工程学院,讲师。
主要研究方向
量子密钥分发;量子隐形传态;量子计算。
主持科研情况
抗相干攻击的连续变量测量设备无关多方量子通信的研究,湖南省教育厅优秀青年项目:22B0267
社会服务与学术交流
担任包括Quantum Science and Technology、New Journal of Physics、EUR PHYS J PLUS、Quant. Inf. Process、PHYSICA SCRIPTA、Sensors、Electronics、Cryptography等在内的国内外权威期刊的审稿人,被IOP出版社评为 Trusted Reviewer。
担任国际会议国际会议第一届、第二届、第三届International Conference on Computing, Communication, Perception and Quantum Technology主席,第二届物联网、通信与智能技术国际会议主席等,第二届 International Workshop on Engineering Physics会议主席。
学术论文:
[1] Zhou, J.*, Li, H., Feng, Y., Shi, R., & Shi, J. (2024). Plug-and-play four-state modulation continuous-variable quantum key distribution. Physica Scripta, 99(10), 105109.
[2] Li J Y, Zhou, J.*, Feng Y, et al. Discrete modulation continuous variable quantum key distribution under fast fading channel[J]. Physica Scripta, 2024.
[3] Jiayan Fu; Bangjie Su; Jian Zhou*; Ronghua Shi; Jinjing Shi ; Four-state continuous variable quantum key distribution with two accelerating partners, Physics Letters A, 2024, 501(28): 129399.
[4] Jian Zhou*; Leixin Wu; Yanyan Feng; Hui Li; Jinjing Shi; Ronghua Shi ; Four-state continuous-variable quantum key distribution with a hybrid linear amplifier, Quantum Information Processing, 2023, 22(9): 1-16.
[5] Wu L X, Feng Y Y, Zhou J*. Improving source-in-the-middle continuous-variable quantum key distribution using a heralded hybrid linear amplifier[J]. Chinese Physics B, 2023, 32(7): 070310.
[6] Jian Zhou*; Yanyan Feng; Jinjing Shi; Ronghua Shi ; Plug‐and‐Play Continuous Variable Measurement‐Device‐Independent Quantum Key Distribution, Annalen der Physik, 2023, 138(3): 1- 12.
[7] Zhao R, Zhou J*, Shi R, et al. Unidimensional Continuous Variable Quantum Key Distribution under Fast Fading Channel[J]. Annalen der Physik, 2023: 2300401.
[8] Leixin Wu; Yanyan Feng; Jian Zhou*; Ronghua Shi; Jinjing Shi ; The effect of acceleration on continuous-variable quantum key distribution with discrete modulation, The European Physical Journal Plus, 2023, 138(10): 1-12.
[9] Feng, Y.Y., Zhou, J., Zhang, D.B. and Shi, J.J., Parameterized quantum circuits for learning cooperative quantum teleportation. Advanced Quantum Technologies,2022.5(9), p.2200040.
[10] Feng, Y., Zhou, J., Li, J., Zhao, W., Shi, J., Shi, R. and Li, W., SKC-CCCO: an encryption algorithm for quantum group signature. Quantum Information Processing, 2022. 21(9), p.328.
[11] Mao Y, Liu Q, Guo Y, Zhang H, Zhou J*. Four-State Modulation in Middle of a Quantum Channel for Continuous-Variable Quantum Key Distribution Protocol with Noiseless Linear Amplifier[J]. Chinese Physics Letters, 2019, 36(10): 100302.
[12] Zhou J, Shi R, Feng Y, et al. Enhancing continuous variable quantum key distribution with a heralded hybrid linear amplifier[J]. Journal of Physics A: Mathematical and Theoretical, 2019, 52(24): 245303.
[13] Guo, Ying, Yu Su, Jian Zhou, Ling Zhang, and Duan Huang. "Finite-size analysis of continuous-variable quantum key distribution with entanglement in the middle." Chinese Physics B 28, no. 1, 2019: 010305.
[14] Feng, Y., Shi, R., Shi, J., Zhou, J. and Guo, Y., Arbitrated quantum signature scheme with quantum walk-based teleportation. Quantum Information Processing, 2019. 18, pp.1-21.
[15] Jian Zhou; Duan Huang; Ying Guo ; Long-distance continuous-variable quantum key distribution using separable Gaussian states, Physical Review A, 2018, 4(98): 1-7.
[16] Zhou J, Shi R, Guo Y. Squeezed-state quantum key distribution with a Rindler observer[J]. Quantum Information Processing, 2018, 17: 1-16.
[17] Feng, Yanyan, Ronghua Shi, Jian Zhou, Qin Liao, and Ying Guo. "Quantum byzantine agreement with tripartite entangled states." International Journal of Theoretical Physics 58, 2019: 1482-1498.
[18] Guo, Ying, Renjie Li, Qin Liao, Jian Zhou, and Duan Huang. "Performance improvement of eight-state continuous-variable quantum key distribution with an optical amplifier." Physics Letters A 382, no. 6, 2018: 372-381.
[19] Zhou J, Guo Y. Continuous-variable measurement-device-independent multipartite quantum communication using coherent states[J]. Journal of the Physical Society of Japan, 2017, 86(2): 024003.
[20] Wu, Y., Zhou, J., Gong, X., Guo, Y., Zhang, Z.M. and He, G., Continuous-variable measurement-device-independent multipartite quantum communication. Physical Review A, 2016. 93(2), p.022325.
[21] Liang, J., Zhou, J., Shi, J., He, G. and Guo, Y., Improving Continuous-Variable Quantum Key Distribution Using the Heralded Noiseless Linear Amplifier with Source in the Middle. International Journal of Theoretical Physics, 2016, 55, pp.1156-1166.
[22]Feng, Y., Liu, S., Zhou, J., Li, J., Zhao, W., & Shi, J. (2024). Quantum secure direct communication via circle-based two-step quantum walks. The European Physical Journal Plus, 139(8), 742.