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廖泽阳
职 称:副教授
学 位:博士
毕业学校:美国德州农工大学(Texas A&M University)
办公室:广州中山大学南校园爪哇堂405
工作经历(科研与学术工作经历,按时间倒序排序):
2019.1 - 至今,中山大学,物理学院,副教授 (博导)
2014.9 - 2018.12,美国德州农工大学,物理系,博士后
教育经历(按时间倒排序):
2008.9 - 2014.8,美国德州农工大学,物理系,博士
2005.9 - 2008.7,中国科学技术大学,近代物理系,硕士 2001.9 - 2005.7,天津大学,应用物理系,本科
量子光学,纳米光学和量子信息交叉学科,主要从事理论研究,研究方向包括量子计算,波导-QED理论, 量子纳米光子学,量子精密测量,和超分辨光学成像与刻蚀等, 在国际权威期刊发表SCI论文60余篇, 授权4个专利,谷歌学术引用>1700次。常年招收本科生,硕士/博士研究生和博士后,欢迎感兴趣的本科生,研究生和博士与我联系。
1. 科技部国家重点研发项目,在研,骨干参与
2. 国家自然科学基金重点项目,在研,骨干参与
3. 广东省卓越团队项目,在研,参与
4. 广东省自然科学基金面上项目, 结题,主持
5. 中山大学“百人计划”项目, 结题, 主持
6. 中央高校基本科研-青年培育项目, 结题,主持
7. 广东省重点研发领域计划, 结题,参与
Physical Review Letters, Physical Review A, Photonics Research, Nanophotonics, Optics Express等杂志审稿人。
(一)波导量子电动力学:
[1]. Yunning. Lu, Zeyang Liao*, and Xue-hua Wang*, Atomic-scale on-demand photon polarization manipulation with high efficiency for integrated photonic chips,Phys. Rev. Lett. 134, 083601 (2025).
[2]. Xin Wang, Junjun He, Zeyang Liao*, and M. S. Zubairy, Tunable ultrahigh broadband reflection via collective atom-atom interaction in a waveguide-QED system, Phys. Rev. A 111, 013706 (2025).
[3].Yuwei Lu, Jingfeng Liu, Haoxiang Jiang*, Zeyang Liao*, Topologically protected subradiant cavity polaritions through linewidth narrowing enabled by dissipationless edge states, Quant. Sci. Tech. 9, 035019 (2024).
[4]. Fan Xing, Zeyang Liao*, and Xue-hua Wang, Deterministic generation of arbitrary n-photon states in a waveguide-QED system, Phys. Rev. A 109, 013718 (2024).
[5]. Yuwei Lu, Haishu Tan, Zeyang Liao*,Dressed bound states at chiral exceptional points,Phys. Rev. A 107, 043714 (2023).
[6]. Fan Xing, Yunning Lu, and Zeyang Liao*, Quantum correlation propagation in a waveguide-QED system with long-range interaction, Opt. Express 30, 22963 (2022).
[7]. Yunning Lu, Zeyang Liao*,Fu-li Li, and Xue-hua Wang*, Integrable high-efficiency generation of three-photon entangled states by a single incident photon, Photon. Res. 10, 389 (2022).
[8]. Zeyang Liao*, Yunning Lu, and M. Suhail Zubairy, Multiphoton pulses interacting with multiple emitters in a one-dimensional waveguide, Phys. Rev. A 102, 053702 (2020).
[9]. Jieyu You, Zeyang Liao*, and M. Suhail Zubairy*, “Steady-state population inversion of
multiple Ξ-type atoms by the squeezed vacuum in a waveguide”, Phys. Rev. A 100, 013843
(2019).
[10]. Zeyang Liao* and M. Suhail Zubairy, “ Quantum state preparation by a shaped photon pulse in a one-dimensional continuum”, Phys.l Rev. A 98, 023815 (2018).
[11]. Jieyu You, Zeyang Liao*, Sheng-wen Li, and M. Suhail. Zubairy*, “Waveguide quantum electrodynamics in squeezed vacuum”, Phys. Rev. A 97, 023810 (2018).
[12]. Zeyang Liao*, Xiaodong Zeng, Hyunchul Nha, and M Suhail Zubairy*, “Photon transport in a one- dimensional nanophotonic waveguide QED system”, Physica Scripta (Focus Issue on Quantum Optics in the International Year of Light) 91, 063004 (2016).
[13]. Zeyang Liao*, H. Nha, M. Suhail Zubairy, “Dynamical theory of single-photon transport in a onedimensional waveguide coupled to identical and nonidentical emitters”, Phys. Rev. A 94, 053842 (2016).
[14]. Zeyang Liao*,Hyunchul Nha, and M. Suhail Zubairy*, Single-photon frequency-comb generation in a one-dimensional waveguide coupled to two atomic arrays,Phys. Rev. A 93, 033851 (2016).
[15]. Zeyang Liao*, Xiaodong Zeng, Shi-Yao Zhu, and M. Suhail Zubairy*, “Single-photon transport through an atomic chain coupled to a one-dimensional nanophotonic waveguide”, Phys. Rev. A 92, 023806 (2015).
[16]. Zeyang Liao and M. Suhail. Zubairy, “Single photon modulation by the collective emission of an atomic chain”, Phys. Rev. A 90, 053805 (2014).
(二)量子强耦合与量子计算:
[1]. Yan Wei, Zeyang Liao*,Fan Xiang, Yu-wei Lu*, and Xue-hua Wang*, Cavity-assisted efficient interaction between two nonidentical emitters via a dressed resonance, Phys. Rev. B 111, 165303 (2025).
[2]. Fan Xing, Yan Wei, and Zeyang Liao*, Quantum search in many-body interacting systems with long-range interactions, Phys. Rev. A 109, 052435 (2024).
[3]. Yuwei Lu, Jingfeng Liu, Zeyang Liao, and Xue-hua Wang*, Plasmonic-photonic cavity for high-efficiency single-photon blockade, Sci. China-Phys. Mech. Astron. 64, 274212 (2021).
[4]. Renming Liu#, Zeyang Liao#, Yi-cong Yu, and Xue-hua Wang*, Relativity and diversity of strong coupling in coupled plasmon-exciton systems, Phys. Rev. B 103, 235430 (2021).
[5]. Xi-Wei Yao#*, Hengyan Wang#, Zeyang Liao, Ming-Cheng Chen, Jian Pan, Jun Li, Kechao Zhang, Xingcheng Lin, Zhehui Wang, Zhihuang Luo, Wenqiang Zheng, Jianzhong Li, Meisheng Zhao, Xinhua Peng*, and Dieter Suter*, “Quantum Image Processing and Its Application to Edge Detection: Theory and Experiment”, Phys. Rev. X 7, 031041 (2017).
[6]. Zeyang Liao, M. Al-Amri, and M. Suhail. Zubairy, “Protecting quantum entanglement from amplitude damping”, J. Phy. B: At. Mol. Opt. Phys. 46, 145501 (2013).
[7]. Xinhua Peng, Zeyang Liao, Nanyang Xu, Gan Qin, Xianyi Zhou, Dieter Suter*, and Jiangfeng Du*, “Quantum Adiabatic Algorithm for Factorization and its Experimental Implementation ”, Phys. Rev. Lett. 101, 220405 (2008).
[8]. Zeyang Liao, Gan Qin, Lingzhi Hu, Songjian Li, Nanyang Xu, and Jiangfeng Du*, “Static and Evolutionary Quantum Public Goods Games”, Phys. Lett. A 372, 3586 (2008).
(三)量子超分辨成像与量子精密测量:
[1]. Zeyang Liao#, Yuwei Lu#, Wei Li*, and Xue-hua Wang*, Optical scattering imaging with sub-nanometer precision based on position-ultra-sensitive giant Lamb shift, Sci. China: Phys. Mechs. Astro. 67, 1 (2024).
[2]. Huan Zhang, Ying Xia, Wei Ye, Shoukang Chang, and Zeyang Liao*, Quantum illumination using non-Gaussian states with conditional measurements,Phys. Rev. A 109, 062440 (2024).
[3]. Huan Zhang, Wei Ye, Zeyang Liao*, and X. -H. Wang, Quantum superresolution for imaging two pointlike entangled photon sources, Phys. Rev. A 108, 033713 (2023).
[4]. Huan Zhang, Wei Ye, Shoukang Chang, Ying Xia, Liyun Hu*, Zeyang Liao*, Quantum multiparameter estimation with multi-mode photon catalysis entangled squeezed state, Frontiers of Physics 18, 42304 (2023).
[5]. Huang Zhang, Wei Ye*, Chaoping Wei, Cunjin Liu, Zeyang Liao*, and Liyun Hu*, Improving phase estimation using number-conserving operations, Phys. Rev. A 103, 052602 (2021).
[6]. Huang Zhang, Wei Ye, Chaoping Wei, Ying Xia, Shoukang Chang, Zeyang Liao*, and Liyun Hu*, Improved phase sensitivity in a quantum optical interferometer based on multiphoton catalytic two-mode squeezed vacuum states, Phys. Rev. A 103, 013705 (2021).
[7]. Zeyang Liao*, M. Al-Amri, M. Suhail Zubairy, “Measurement of deep-subwavelength emitter separation in a waveguide-QED system”, Opt. Express 25, 31997 (2017).
[8]. F. AlGhannam, P. R. Hemmer, Zeyang Liao, and M. Suhail. Zubairy, “Magnetic resonance lithography with nanometer resolution”, Technologies 4, 12 (2016).
[9]. Xiaodong Zeng, Zeyang Liao, M. Al-Amri, and M. Suhail Zubairy, “Sub-diffraction-limited microscopy via Rabi gradient excitation”, Phys. Rev. A 91, 063811 (2015).
[10]. Zeyangliao, M. Al-Amri, and M. Suhail. Zubairy, “Coherent Rabi oscillations in a molecular system and sub-diffraction-limited pattern generation”, J. of Phy. B: At. Mol. and Opt. Phys. 48, 105101 (2015).
[11]. Zeyang Liao, M. Al-Amri, and M. Suhail. Zubairy, “Coherent atom lithography with nanometer spacing”, Phys. Rev. A 88, 053809 (2013).
[12]. Zeyang Liao, M. Al-Amri, Thomas Becker, W. P. Schleich, Marlan O. Scully, and M. Suhail Zubairy, “Atomic lithography with subwavelength resolution via Rabi oscillations”, Phys. Rev. A 87, 023405 (2013).
[13]. M. Al-Amri, Zeyang Liao, and M. Suhail. Zubairy, “Beyond the diffraction limit in Optical lithography ”, Advances in Atomic, Molecular, and Optical Physics 61, 409-466 (2012).
[14]. Zeyang Liao, M. Al-Amri, and M. Suhail Zubairy, “Resonance Fluorescence Localization Microscopy with Subwavelength Resolution”, Phys. Rev. A 85, 023810 (2012).
[15]. Zeyang Liao, M. Al-Amri, and M. Suhail. Zubairy, “Quantum Lithography beyond the Diffraction Limit via Rabi Oscillations”, Phys. Rev. Lett. 105, 183601 (2010). (Highlighted by APS Physics and Nature Photonics)
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