冷原子物理与量子精密测量

李朝红，深圳大学讲席教授、量子精密测量研究所所长，广东省量子精密测量与传感重点实验室创始主任，国家杰出青年科学基金获得者，国家特支计划科技创新领军人才，科技部创新推进计划领军人才。2003年从中科院武汉物理与数学研究所获博士学位，2003年至2009年先后在德国马普复杂系统研究所和澳大利亚国立大学从事科学研究，2009年加入中山大学任教授，2022年加入深圳大学任特聘教授。主要研究冷原子物理与量子精密测量，研究工作涵盖: 冷原子晶格体系的量子关联与新奇量子物态; 玻色凝聚原子体系跨越相变的普适量子临界动力学;冷原子量子精密测量与量子传感等。已在Rev. Mod. Phys.、Nature Physics、Phys. Rev. Lett.、Nature Communications、PRX Quantum、Appl. Phys. Rev.等高水平国际期刊发表SCI论文120余篇。多个理论工作被苏黎世理工学院Essllinger教授团队、诺贝尔物理奖得主Wineland教授团队等国际著名研究组的后续实验证实。

研究兴趣包括：冷原子物理、量子调控与量子模拟、量子精密测量与传感等。 

冷原子物理：围绕冷原子气体，探索量子光学、集体量子行为、量子相变、非平衡量子动力学、拓扑量子物态等领域中的前沿科学问题，主要包括：原子激光冷却与囚禁、原子玻色-爱因斯坦凝聚、光晶格冷原子体系的量子关联与相变、量子相变动力学的普适特性表征、新奇拓扑物态的刻画与表征、强相互作用多体问题等。 

量子调控与量子模拟：基于冷原子体系和量子光子学体系，在探索新奇量子物态和多体量子效应的同时，发展量子调控和量子模拟的新方案，发展冷原子量子操控的关键技术，基于冷原子体系开展量子模拟的实验研究，具体包括：超冷铷原子气体的调控与探测技术，临界相变动力学、新奇拓扑物态、多体量子行走、多体布洛赫振荡、多体局域和本征态热化的量子模拟等。 

量子精密测量与传感：基于冷原子等人工量子体系，针对如何超越传统测量极限这一关键问题，在探索量子精密测量的原理与新方案的同时，研发量子传感的核心技术与实验装置，主要包括：物质波干涉、量子参数估计、冷原子钟、冷原子磁力计、智能量子传感（机器学习在量子传感中的应用）等。 

长期招募教师、博士后和研究生，理论和实验均可，有兴趣者请发电子邮件至chleecn@szu.edu.cn咨询详细情况。 

代表性论文 

[26] Jiahao Huang, Min Zhuang, and Chaohong Lee (李朝红), Entanglement-enhanced quantum metrology: from standard quantum limit to Heisenberg limit, Appl. Phys. Rev. 11, 031302 (2024).

[25] Boning Huang, Yongguan Ke, Honghua Zhong, Yuri S. Kivshar, and Chaohong Lee (李朝红), Interaction-induced multiparticle bound states in the continuum, Phys. Rev. Lett. 133, 140202 (2024).

[24] Baijun Li, Yunlan Zuo, Le-Man Kuang, Hui Jing, and  Chaohong Lee (李朝红), Loss-induced quantum nonreciprocity, npj Quantum Inf. 10, 75 (2024).

[23] Sijie Chen, Min Zhuang, Ruihuang Fang, Yun Chen, Chengyin Han, Bo Lu, Jiahao Huang, and Chaohong Lee (李朝红), Quantum double lock-in amplifier, Communications Physics 7, 189 (2024).

[22] Ling Lin and Chaohong Lee (李朝红), Probing Chiral-Symmetric Higher-Order Topological Insulators with Multipole Winding Number, Communications Physics 7, 393 (2024).

[21] Min Zhuang, Sijie Chen, Jiahao Huang, and Chaohong Lee (李朝红), Quantum Vector DC Magnetometry via Selective Phase Accumulation, Sci. China-Phys. Mech. Astron. 67, 100312 (2024).

[20] Y. Ke and C. Lee (李朝红), Topological quantum tango, Nature Physics 19, 1387 (2023).

[19] Y. Ke, J. Huang, W. Liu, Yu. S. Kivshar, and C. Lee (李朝红), Topological inverse band theory in waveguide quantum eletrodynamics, Phys. Rev. Lett. 131, 103604 (2023).

[18] Q. Cheng, H. Wang, Y. Ke, T. Chen, Y. Yu, Yu. S. Kivshar, C. Lee (李朝红), and Y. Pan, Asymmetric topological pumping in nonparaxial photonics, Nature Communications 13, 249 (2022).

[17] R. Fang, C. Han, X. Jiang, Y. Qiu, Y. Guo, M. Zhao, J. Huang, B. Lu, and C. Lee (李朝红), Temporal analog of Fabry-Perot resonator via coherent population trapping, npj Quantum Inf. 7, 143 (2021). 

[16] M. Zhuang, J. Huang, and C. Lee (李朝红), Many-body quantum lock-in amplifier, PRX Quantum 2, 040317 (2021). 

[15] X. Cai, H. Yang, H. Shi, C. Lee (李朝红), N. Andrei, and X. Guan, Multiparticle Quantum Walks and Fisher Information in One-Dimensional Lattices, Phys. Rev. Lett. 127, 100406 (2021). 

[14] A. V. Poshakinskiy, J. Zhong, Y. Ke, N. A. Olekhno, C. Lee (李朝红), Yu. S. Kivshar, and A. N. Poddubny, Quantum Hall phase emerging in an array of atoms interacting with photons, npj Quantum Inf. 7, 34 (2021). 

[13] J. Zhong, N. A. Olekhno, Y. Ke, A. V. Poshakinskiy, C. Lee (李朝红), Yu. S. Kivshar, and A. N. Poddubny, Photon-mediated localization in two-level qubit arrays, Phys. Rev. Lett. 124, 093604 (2020). 

[12] Y. Ke, A. V. Poshakinskiy, C. Lee (李朝红), Yu. S. Kivshar, and A. N. Poddubny, Inelastic Scattering of Photon Pairs in Qubit Arrays with Subradiant States, Phys. Rev. Lett. 123, 253601 (2019). 

[11] X. Nie, J. Huang, Z. Li, W. Zheng, C. Lee (李朝红), X. Peng, and J. Du, Experimental demonstration of nonlinear quantum metrology with optimal quantum state, Science Bulletin 63, 469 (2018). 

[10] Y. Ke, X. Qin, F. Mei, H. Zhong, Yu. S. Kivshar, and C. Lee (李朝红), Topological phase transitions and Thouless pumping of light in photonic waveguide arrays, Laser Photon. Rev. 10, 995 (2016). 

[9] S. V. Suchkov, J. Huang, A. A. Sukhorukov, S. V. Dmitriev, C. Lee (李朝红), and Yu. S. Kivshar, Nonlinear switching and solitons in PT-symmetric photonic systems, Laser Photon. Rev. 10, 177 (2016). 

[8] X. Luo, J. Huang, H. Zhong, X. Qin, Q. Xie, Yu. S. Kivshar, and C. Lee (李朝红), Pseudo Parity-Time Symmetry in Optical Systems, Phys. Rev. Lett. 110, 243902 (2013). 

[7] X. W. Guan, X. G. Yin, A. Foerster, M. T. Batchelor, C. H. Lee (李朝红), and H. Q. Lin, Wilson ratio of Fermi gases in one dimension, Phys. Rev. Lett. 111, 130401 (2013). 

[6] X. W. Guan, M. T. Batchelor, and C. H. Lee (李朝红), Fermi gases in one dimension: From Bethe Ansatz to experiments, Rev. Mod. Phys. 85, 1633 (2013). 

[5] C. Lee (李朝红-独著), Universality and anomalous mean-field breakdown of symmetry-breaking transitions in a coupled two-component condensate, Phys. Rev. Lett. 102, 070401 (2009). 

[4] X.W. Guan, M.T. Batchelor, C. H. Lee (李朝红), and H.Q. Zhou, Magnetic phase transitions in one-dimensional strongly attractive three-component ultracold fermions, Phys. Rev. Lett. 100, 200401 (2008). 

[3] C. Lee (李朝红), T. J. Alexander, and Yu. S. Kivshar, Melting of discrete vortex via quantum fluctuations, Phys. Rev. Lett. 97, 180408 (2006). 

[2] C. Lee (李朝红-独著), Adiabatic Mach-Zehnder interferometry on a quantized Bose-Josephson junction, Phys. Rev. Lett. 97, 150402 (2006). 

[1] C. Lee (李朝红-独著), Bose-Einstein condensation of particle-hole pairs in ultracold fermionic atoms trapped within optical lattices, Phys. Rev. Lett. 93, 120406 (2004).