李小雪，博士，讲师。主要研究方向为微纳光子学，重点开展光通信系统中新型微光子器件模型和拓扑光波导的设计及应用研究。作为项目负责人主持江苏省研究生科研创新项目一项。在国际著名期刊Applied Physics Letters、Optics Letters、Chinese Optics Letters、IEEE Sensors Journal、Optics Communications、Journal of Optics等发表SCI学术18篇论文（第一作者兼通讯作者12篇），申请发明专利一项。荣获2022年江苏省优秀硕士学位论文。

研究领域

1、 拓扑光子晶体

2、 光波导

3、 光学超表面

主讲课程

大学物理

基金项目

2025.09-2028.09，基于连续域束缚态下的动态调控及应用的研究，sunbet申搏引进人才项目

代表性论文

[1] Xiao-Xue Li, Guang-Hao Rui, and Bing Gu,“Modulation of optical force by adjusting the distance between three-layer photonic crystal slabs” Optics Communications 574 131172 (2025).

[2] Xiao-xue Li, Guang-Hao Rui, Jun He, and Bing Gu, “Transformation of topological states in three-dimensional photonic crystal under magnetic field modulation”Applied Physics Letters 124, 091105 (2024).

[3] Xiao-Xue Li, Guang-Hao Rui, and Bing Gu, “Nonlinear control of topological corner and edge states in a loop resonator,”Optics Communications 550 130004 (2024).

[4] Xiao-Xue Li, Guang-Hao Rui, Jun He, and Bing Gu, “Higher-order hybrid topological bound states in a non-Hermitian system,” Optics Letters 48(13), (2023).

[5] Xiao-Xue Li, Guang-Hao Rui, Jun He, and Bing Gu, “Degeneration of topological corner, hinge, and surface states in three-dimensional photonic crystals,”Optics Letters 48(20), (2023).

[6] Xiao-Xue Li, Bing Gu, Guang-Hao Rui, Jun He, Yi-Ping Cui, and Qi-Wen Zhan, “High-order harmonic generation in uniformly distributed topological edge states,” Journal of Optics 25, 045002 (2023).

[7] Xiao-Xue Li, Guang-Hao Rui, Yi-Ping Cui, and Bing Gu, “Reconfigurable nested photonic topological loops,”Chinese Optics Letters 20 (6), 061301 (2022).

[8] Xiao-Xue Li, Yun-Tuan Fang, and Li-Xia Yang, “Dual modulation of topological edge states from two-dimensional photonic crystals with lattice,”Modern Physics Letters B 35(14) (2021).

[9] Xiao-Xue Li, Er-pan Fan, Zhang-Xin Wang, and Yun-Tuan Fang “Exception point induced flat-band and waveguide laser,”.Opt Quant Electron 52(362) (2020).

[10] Xiao-Xue Li, Rong-kun Ma, Yun-Tuan Fang, “Circular polarization laser output through magnetic switch,”IEEE Access, 7: 104613-104620 (2019).

[11] Xiao-Xue Li, Si- Fang Ye, Li Xia Yang, and Yun-Tuan Fang, “Asymmetric and dynamic waveguide propagation based on localized parity-time symmetry”,Optics Communications, 443: 129-135 (2019).

[12] Xiao-Xue Li, Yun-Tuan Fang, “Sensing gas through coupling effect of quasi-PT-symmetry resonators,”Journal of Instrumentation, 14(2) (2019).

[13] Yun-Tuan Fang,Xiao-Xue Li, and Li-Xia Yang “Robust topological edge states from one-dimensional diatomic chain photonic Crystals,”International Journal of Modern Physics B, 35(10) 2150146 (2021).

[14] Ji Ma,Xiao-Xue Li, Yun-Tuan Fang, “Embedded topological edge states from two-dimensional photonic crystals,”Physica E: Low-dimensional Systems and Nanostructures, 127 114517 (2021).

[15] Yi-Heng Wu,Xiao-Xue Li, Yun-Tuan Fang, “Evolution and reversal ofreversed topological edge states at optical frequencies from a two-dimensional photonic crystal,”Journal of Optics, 22(10) (2020).

[16] Yun-Tuan Fang,Xiao-Xue Li, Jing Xia, et al., “Sensing gases by the pole effect of parity time symmetric coupled resonators”, IEEE Sensors Journal, 19(7) (2019).

[17] Yun-Tuan Fang,Xiao-Xue Li, “Sub-Nanometer Displacement Sensor Based on Coupling of Balanced Loss and Gain Cavities”, Photonic Sensors, 9:259–267 (2019).

[18] Yun-Tuan Fang,Xiao-Xue Li, “Amplified Tunnelling from a Pair of Balanced Loss and Gain Cavities”,Zeitschrift für Naturforschung A, 73(11) 2018.