职称：副研究员、博士生导师 

办公室地址：电信5号楼205室 

邮箱：jzhuang1983@sjtu.edu.cn

教育背景和工作经历：

• 2019.12 –至今 上海交通大学 副研究员 

• 2016.8-2019.12  上海交通大学 助理研究员 

• 2014.8-2016.8 上海交通大学 博士后（合作导师：曾贵华 教授） 

• 2009.9-2014.7 中国科学技术大学 光学与光学工程系 博士研究生 （导师：韩正甫 教授） 

• 2006.8-2009.8 中国电信中山分公司 网络维护工程师 

• 2002.9-2006.7  上海交通大学 信息工程系 本科

荣誉： 

2018年度晨星青年学者奖励计划 

研究方向：   

• 量子传感、量子导航

个人简介： 

上海交通大学副研究员，博导，长期研究光量子传感技术及其在导航、电力等方面应用，解决相关基础科学问题与样机研发过程中的核心技术问题。已主持国家自然科学基金委项目2项、国防科技项目6项，并以骨干成员身份参与科创2030重点研发项目。在Nature Communications、Science Advances、Physical Review Letters等高水平国际学术期刊发表SCI论文40余篇，获授权国家发明专利10项、国防专利4项，以第一译者身份出版译著1部。 

项目情况：

1.“弱测量光纤传感机理与应用研究”，国家自然科学基金（面上）项目，2021.1-2024.12 （主持）。

2. 科技创新2030-“量子通信与量子计算机”重大项目子课题，2021.1-2025.12（参与）。

3.“基于弱测量方法的参量感知新方案研究”，国家自然科学基金（青年）项目，2018.1-2020.12（主持）。

代表论文： 

[1] Yu Tao, Xinhang Li, Lang Li, Jingzheng Huang*, Hongjing Li, Tao Wang*, Linjie Zhou*, and Guihua Zeng*, Surpassing the Quantum Limit in Bosonic Loss Estimation without Quantum Probes, Phys. Rev. Lett. 133, 060801 (2024).

[2] Binke Xia⁺, Jingzheng Huang⁺*, Hongjing Li, Zhongyuan Luo, and Guihua Zeng*, Nanoradian-scale precision in light rotation measurement via indefinite quantum dynamics, Sci. Adv. 10, eadm8524 (2024).

[3]Binke Xia, Jingzheng Huang* , Hongjing Li, HanWang & Guihua Zeng**, Toward incompatible quantum limits on multiparameter estimation, Nat. Comm. 14, 1021 (2023).

[4] Binke Xia, Jingzheng Huang* , Hongjing Li, Miaomiao Liu, Tailong Xiao, Chen Fang and Guihua Zeng**, Ultrasensitive measurement of angular rotations via a Hermite–Gaussian pointer, Photon. Res. 10, 2816 (2022).

[5] Tailong Xiao, Jingzheng Huang, Hongjing Li, Jianping Fan and Guihua Zeng*, Intelligent certification for quantum simulators via machine learning, npj Quantum Information, 8, 138 (2022).

[6] Qi Song, Binke Xia, Jingzheng Huang*, Tailong Xiao , Hongjing Li, and Guihua Zeng**, Surpassing the Nyquist Sampling Limit via Postmodulation, Phys. Rev. Appl. 18, 034077 (2022).

[7] Dongzi Zhao, Jingzheng Huang*, Tailong Xiao, Hongjing Li, Xiaoyan Wu, and Guihua Zeng, Type of non-reciprocity in a fiber Sagnac interferometer induced by geometric phases, Opt. Exp. 30, 12 (2022).

[8] 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). 

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

[10] 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). 

[11] 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). 

[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).