团队成员

姓名: 庄敏

E-mail: mmzhuang@szu.edu.cn

研究方向

量子精密测量; 量子锁相放大测量; 量子增强磁力计

个人简介

庄敏博士，2020年从中山大学获博士学位，2020年至2022年在中山大学从事博士后研究；2022年加入深圳大学物理与光电工程学院任副研究员。主要研究成果包括: 1.发展了多体量子锁相放大器和量子双锁相放大器的一般方案；2.发展了基于非高斯型纠缠态的量子精密测量方案；3.发展了基于纠缠原子系综实现高精度磁力计、高精度频率测量、纠缠增强的洛伦兹不变性破缺检验的方案。以第一作者身份发表论文发表SCI论文10余篇，其中包括 PRX Quantum 1 篇、Phys. Rev. Applied 2 篇、Phys. Rev. A 2 篇等。

代表性论文

[1]Min Zhuang (庄敏); Jiahao Huang; Chaohong Lee; Many-Body Quantum Lock-In Amplifier, PRX Quantum, 2 4 (2021)

[2]Min Zhuang (庄敏); Hongtao Huo; Yuxiang Qiu; Wenjie Liu; Jiahao Huang; Chaohong Lee; Heisenberg-Limited Frequency Estimation via Driving Through Quantum Phase Transitions, Phys. Rev. Applied, 16 6 (2021).

[3] Min Zhuang (庄敏); Jiahao Huang; Yongguan Ke; Chaohong Lee ; Quantum Adiabatic Evolution: Symmetry‐Protected Quantum Adiabatic Evolution in Spontaneous Symmetry‐Breaking Transitions，Annalen der Physik, 4 532 (2020).

[4] Min Zhuang (庄敏); Jiahao Huang; Chaohong Lee; Simultaneous Measurement of dc and ac Magnetic Fields at the Heisenberg Limit, Physical Review Applied, 4 13 (2020).

[5]  Min Zhuang (庄敏); Jiahao Huang; Chaohong Lee; ultiparameter estimation via an ensemble of spinor atoms, Physical Review A, 3, 98(2018).

[6]Min Zhuang (庄敏); Jiahao Huang; Chaohong Lee ; Entanglement-enhanced test proposal for local Lorentz-symmetry violation via spinor atoms，Quantum, 6, 859 (2022).

[7] Min Zhuang (庄敏); Sijie Cheng; Jiahao Huang; Chaohong Lee ; Quantum Lock-in Measurement of Weak Alternating Signals，Quantum Front. 3, 4 (2024).

[8] Min Zhuang (庄敏); Sijie Cheng; Jiahao Huang; Chaohong Lee ; Mechanics & AstronomyQuantum Vector DC Magnetometry via Selective Phase Accumulation， SCIENCE CHINA Physics Mechanics & Astronomy (2024).

[9] Jiahao Huang; Min Zhuang (庄敏); Chaohong Lee; Non-Gaussian precision metrology via driving through quantum phase transitions, Physical Review A，7, 39 (2018).[共同第一作者]

[10]Wenjie Liu; Min Zhuang (庄敏); Bo Zhu; Jiahao Huang; Chaohong Lee; Quantum metrology via chaos in a driven Bose-Josephson system，Physical Review A, 2, 103 (2021).

[11]Hongtao Huo; Min Zhuang (庄敏); Jiahao Huang; Chaohong Lee; Machine optimized quantum metrology of concurrent entanglement generation and sensing, Quantum Sci. Technol., 7, 2 (2022).

[12]Bo Lu; Chengyin Han; Min Zhuang (庄敏); YongguanKe; Jiahao Huang; Chaohong Lee; Non-Gaussian entangled states and quantum metrology with ultracold atomic ensemble, Acta Phys. Sin., 4, 68(2019).

[13]Yuxiang Qiu; Min Zhuang (庄敏); Jiahao Huang; Lee Chaohong; Efficient and Robust Entanglement Generation with Deep Reinforcement Learning for Quantum Metrology. New J. Phys., 24, 083011 (2022).

[14]Yuxiang Qiu; Min Zhuang (庄敏); Jiahao Huang; Lee Chaohong; E ffi cient Non-adaptive Bayesian Phase Estimation via Entropy-based Sampling. Quantum Sci. Technol., 7, 035022 (2022).

[15]Jiahao Huang; Hongtao Huo; Min Zhuang (庄敏); Chaohong Lee; Efficient Generation of Spin Cat States. Phys. Rev. A, 105, 062456 (2022).

[16]Yongguan Ke, Jiahao Huang, Min Zhuang (庄敏), Bo Lu, and Chaohong Lee; Compact gravimeter with an ensemble of ultracold atoms in spin-dependent optical lattices, Phys. Rev. A, 98, 053826 (2018).

[17] Jiahao Huang, Min Zhuang (庄敏), Bo Lu, Yongguan Ke, and Chaohong Lee; Achieving Heisenberg-limited metrology with spin cat states via interaction-based readout. Phys. Rev. A, 98, 012129 (2018).