博士毕业于清华大学物理系。曾在英国牛津大学物理系、北京应用物理与计算数学研究所、香港中文大学从事科学研究与访问。

主要讲授课程：《群论》、《量子力学》、《固体物理学》、《固体理论》等。

从事凝聚态理论的研究，具体研究方向有：半导体低维体系中的光学性质和强太赫兹场下的动力学；表面等离激元光子学；光晶格中冷原子的动力学性质；晶格体系中的奇异拓扑态和拓扑位相转变。

科研工作参考如下论文：

 

[1]   Xin-Miao Qiu, Ning Yang, Weidong Chu and Jie-Yun Yan*,

Detection of the chirality of twisted bilayer graphene by the optical absorption,

Phys. Rev. B 109, 125419 (2024).

[2]   Xu-Jin Wang, Lu Zhang, Liang Yan and Jie-Yun Yan*,

Controllable Floquet topological phases in the magnetic ladder system,

New J. Phys. 26, 033016 (2024).

[3]   Liang Yan, Di Zhang, Xu-Jin Wang and Jie-Yun Yan*,

        Intrinsic topological metal state in T-graphene,

        New J. Phys. 25, 043020 (2023).

[4]     Lu Zhang, Xi-Ming Wang, Xin-Miao Qiu, Zhigang Wang*, and Jie-Yun Yan*,

        Light controlled topological plasmonics in a graphene lattice arrayed by metal nanoparticles,

        Phys. Rev. B 108, 085402 (2023).

[5]     Di Zhang, Xu-Jin Wang, Lu Zhang and Jie-Yun Yan*,

        Two dimensional Floquet topological states in a driven graphene lattice,

        Results in Physics 50, 106585 (2023). 

[6]     Zhe Zhou, Liang Yan, Xi-Ming Wang, Di Zhang and Jie-Yun Yan*,

        The sensitive energy band structure and the spiral current in helical graphenes,

        Results in Physics 35, 105351 (2022).

[7]     Meng-Xi Zhang, Zhe Zhou, Liang Yan, Lu Zhang, and Jie-Yun Yan*,

        Polarization-induced topological phase transition in zigzag chains composed of metal nanoparticles,

        J. Appl. Phys. 129, 243103 (2021).

[8]     Xue She, Jie Li, and Jie-Yun Yan*,

        The Berry phase in the nanocrystal complex composed of metal nanoparticle and semiconductor quantum dot,

        Optics Express 25, 22869 (2017).

[9]     Jie-Yun Yan,

        Excitonic terahertz photoconductivity in intrinsic semiconductor nanowires,

        J. Phys.: Condens. Matter 30, 235301 (2018).

[10]    Jie-Yun Yan,

        Quantum plasmon model for the terahertz photoconductivity in intrinsic semiconductor nanowires,

        J. Phys.: Condens. Matter 29, 415302 (2017).

[11]    Jie-Yun Yan,

        High-order sideband generation in a semiconductor quantum well driven by two orthogonal terahertz fields,

        J. Appl. Phys. 122, 084306 (2017).

[12]  Jie-Yun Yan,

        Discrete gap solitons in nonlinear binary plasmonic waveguide arrays,

        Phys. Rev. A 91, 033806 (2015).

[13]  Jie-Yun Yan,

        Optical properties of excitons in metal-insulator-semiconductor nanowires,

        Optics Express 21, 25607 (2013).

[14]  Jie-Yun Yan,

        Strong exciton-plasmon interaction in semiconductor-insulator-metal nanowires,

        Phys. Rev. B 86, 075438 (2012).

[15]  Jie-Yun Yan*, Lu Li, and Jinghua Xiao,

        Ring-like solitons in plasmonic fiber waveguides composed of metal-dielectric multilayers,

        Optics Express 20, 1945 (2012).

[16]  Jie-Yun Yan*, Suqing Duan*, Wei Zhang, and Xian-Geng Zhao,

        Observation of Landau-Zener tunneling through atomic current in the optical lattices,

        Phys. Rev. A 79, 053613 (2009).

[17]  Jie-Yun Yan*, Ping Zhang, Bo Sun, Hai-Zhou Lu, Zhigang Wang, Suqing Duan, and Xian-Geng Zhao,

        Quantum blockade and loop current induced by a single lattice defect in graphene nanoribbons,

        Phys. Rev. B 79, 115403 (2009).

[18]  Jie-Yun Yan, Ren-Bao Liu, and Bang-Fen Zhu*,

        Exciton absorption in semiconductor superlattices in a strong longitudinal THz field,

        New J. Phys. 11, 083004 (2009).

[19]  Jie-Yun Yan,

        Theory of excitonic high-order sideband generation in semiconductors under a strong terahertz field,

        Phys. Rev. B 78, 075204 (2008).

[20]  Jie-Yun Yan, Wei Zhang*, Suqing Duan, Xian-Geng Zhao, and Alexander O. Govorov*,

        Optical properties of coupled metal-semiconductor and metal-molecule nanocrystal complexes: Role of multipole effects,

        Phys. Rev. B 77, 165301 (2008).