研究领域属于光电信息领域。主要从事矢量光束调控和传输特性、以及复杂光场在微操控领域方面的研究,已发表研究论文40余篇,其中在《Journal of Optics》专刊上发表关于光束聚焦偏移的论文,在《optics express》期刊上发表的全光控制矢量光场的论文,被引用多达80多次。 近年来发表的文章列表: 1. Yanfang Yang*, LuLu Li, Xiyu Yan, Ying He, Junjie Wang, Creating axial bifocal spots by solving the binary phase zone plate in inverse in 4Pi focusing system, Optik, 270 (2022) 169992. 2. Yanfang Yang*, Xiyu Yan, Ying He, Huihui Duan, LuLu Li, Generating and converting special focal field patterns in a 4Pi focusing system illuminated by azimuthally polarized vortex beam, Optical Review 29 (2022), 320–326 3. Yan Xiyu, Yang Yanfang*, He Ying, Li Lulu, Wang Junjie, Tight Focusing Properties of Gaussian Beams with Asymmetric Off-Axis Bi-Phase Singularities, Acta Optica Sinica, 42(20), 2026001 (6pp), 2022. 4. Duan Huihui, Yang Yanfang*, He Ying, Li LuLu, Influence of diffractive optical elements on multiple spherical spots in a 4p focusing system. Acta Optica Sinica, 41(20), 2026001 (6pp), 2021. 5. Tianqi Xie, Ying He, Yanfang Yang, Huifang Zhang, Yi Xu, Highly Sensitive Surface Plasmon Resonance Sensor Based on Graphene-Coated U-shaped Fiber, Plasmonics (2021) 16:205–213. 6. Li Hongyan, Yang Yanfang*, He Ying, Duan Huihui, Yan Xiyu. Conversion between special focal field structures based on 4Pi focusing system. Acta Optica Sinica, 40(12), 1226001(6pp), 2020. 7. Li Weichao, Yang Yanfang*, He Ying, Li Hongyan, Duan Huihui, Triple optical chain generated by tight focusing of azimuthally polarized higher-order Lagureer-Gauss vortex beams, Acta Optica Sinic, 39(8), 0826002, 2019. 8. Wen Yuan, Qin Guo, Minghuang Sang, Yanfang Yang. Flattop shaped creation based on strong focusing of circularly polarized vortex beams. Journal of Optics (2017), 46(2): 164–169. 9. Luo Zhuyu, Yang Yanfang*, He Ying, Influence of optical parameters of high numerical aperture focusing system on three-dimensional twin-optical chain, Acta Optica Sinic, 37(2), 0226001, 2017. 10. Yanfang Yang*, Mei Leng, Ying He, Haigang Liu, Qiang Chang and Chunfang Li, Focal shift in spatial-variant polarized vector Bessel–Gauss beams J. Opt. 15(1),PP 014003(5pp), 2013. 11. Wei Han, Yanfang Yang, Wen Cheng and Qiwen Zhan, Vectorial optical field generator for the creation of arbitrarily complex fields. Optics Express. 21(18), PP20692-20706, 2013. 12. Chang Qiang, Yang Yan-Fang*, He Ying, Liu Hai-Gang, Liu Jian, Study of the focusing features of spatial amplitude and phase modulated radially polarized vortex beams in a 4pi focusing system, Acta Phys. Sin. 62(10) (2013) 104202. 13. Kai Xu, Yanfang Yang*, Ying He, Xiaohong Han, and Chunfang Li, Liquid crystal retarder modulation for generating real time non-uniformly polarized beams, JOSA A, 27(3), 572–577, 2010. 14. Tight Focusing of Double-Ring-Shaped Bessel-Gaussian Radially Polarized Beam Through a Dielectric Interface, Acta Optica Sinic, 36(4), 0426001, 2016. 15. Generation of Arbitrary Vector Beams by Full Control of Light, Acta Optica Sinic, 35(5), 0526001, 2015. 16. Guided modes in a graphene barrier waveguide, Superlattices and Microstructures, 85, 761-767, 2015. 17. Transmission gaps in graphene superlattices with periodic potential patterns, Physica B, 457, 188-193, 2015. 18. Modes splitting in graphene-based double-barrier waveguides, Chin. Phys. B, 26(3), 030301, 2017. 19. Guided modes in silicene-based waveguides, Superlattices and Microstructures, 114, 115-123, 2018. |