冯天华副研究员长期致力于光电信息功能器件与系统研究，特别是在微纳米结构光学散射辐射调控、超构材料与超构表面、光电信息处理等研究方向上开展了一系列的研究工作，并取得了一些有意义的创新成果。迄今为止共发表SCI收录学术论文近50篇，包括以第一作者或通讯作者身份在Optica, Physical Review Letters, ACS Photonics, Photonics Research 和 Physical Review B/Applied 等国内外权威期刊上发表多篇论文，曾担任Nature Communications, Optica和Physical Review Letters等多个国际权威学术期刊审稿人。研究成果得到国内外同行的肯定，目前论文引用近2500次(google scholar)，h指数为21。作为第一发明人申请和授权多项国家发明专利，主持国家自然科学基金联合基金重点支持项目\青年基金项目、广东省自然科学基金青年提升项目\面上项目等，参与了国家自然科学基金重大研究计划培育项目等多个项目，入选暨南大学“双百英才”杰出青年。

2010 - 2013   香港城市大学   博士   物理与材料科学

2007 - 2010   华南师范大学   硕士   光学

2003 - 2007   华南师范大学   本科   光信息科学与技术

2024.01 - 至今       五邑大学   电子与信息工程学院   副院长（挂职）

2022.01 - 2024.01    五邑大学   智能制造学部         副部长（挂职）

2018.10 - 至今       暨南大学   信息科学技术学院     副研究员、硕士生导师

2016.05 - 2018.10    暨南大学   信息科学技术学院     讲师

2014 - 2016          广州三星通信技术研究院          先任研究员

信息技术与功能器件

欢迎对“新一代信息技术、光电信息功能芯片与系统”等研究方向感兴趣的同学报读硕士研究生，须具备物理、电子信息等理工科背景。项目组所在的中俄国际联合实验室提供良好的氛围、充足的设备及国内外学术交流的机会。

期刊论文

2024

[48] J. Yuan, P. Li, X. Zhang, T. Feng*, and Z. Li, Chalcogenide metasurface heterostructures for enhancing optomechanical interaction, Opt. Commun. 563, 130599 (2024).

[47] H. Yu, M. Ouyang, X. Zhang, T. Feng* and Z. Li, Optical encryption by dynamically modulating the spatial frequency of light fields, Opt. Commun. 560, 130459 (2024).

[46] J. Song, Y. Peng, X. Guo,* Z. Chen, M. Xiao, T. Feng, Z. Fu, S. Yang, L. Wan, Y. Li,* C. Lu, and Z. Li, Efficient Parametric Frequency Conversions in Chalcogenide-Loaded Etchless Thin-Film Lithium Niobate Waveguides, Laser Photonics Rev. 2301128 (2024).

2023

[45] F. Wang, J. Yuan, S. Yang, A. A. Potapov, X. Zhang, Z. Liang, and T. Feng*, Compact ring resonators of silicon nanorods for strong optomechanical interaction, Nanoscale 15, 4982-4990 (2023).

2022

[44] M. Ouyang, H. Yu, D. Pan, L. Wan, C. Zhang, S. Gao, T. Feng*, and Z. Li*, Optical encryption in spatial frequencies of light fields with metasurfaces, Optica 9, 1022-1028 (2022). [一区，IF 10.644]

[43] S. Zhuo, Y. Li,* A. Zhao, Y. Li, S. Yao, M. Zhang, T. Feng, and Z. Li*, Dynamic Transmissive Metasurface for Broadband Phase-Only Modulation Based on Phase-Change Materials, Laser Photonics Rev. 2200403 (2022). [一区，IF 10.947]

[42] L. Wan*, Z. Yang, W. Zhou, M. Wen, T. Feng, S. Zeng, D. Liu, H. Li, J. Pan, N. Zhu, W. Liu, and Z. Li*, Highly efficient acousto-optic modulation using nonsuspended thin-film lithium niobate-chalcogenide hybrid waveguides, Light Sci. Appl. 11, 145 (2022). [一区，IF 20.257]

[41] W. Zhang, L. Wan*, Y. Wei, S. Jia, S. Gao, T. Feng, W. Liu, and Z. Li, Defect-assisted, spray-printed colloidal quantum dot microlasers for biosensing, Opt. Lett. 47. 4917-4920 (2022).

[40] Z. Yang, M. Wen, L. Wan*, T. Feng, W. Zhou, D. Liu, S. Zeng, S. Yang, and Z. Li*, Efficient acousto-optic modulation using a microring resonator on a thin-film lithium niobate–chalcogenide hybrid platform, Opt. Lett. 47, 3808-3811 (2022).

[39] J. Song, T. Feng, Y. Wei, J. Pan, X. Guo, B. Zhang, L. Wan*, Z. Li, On-chip stimulated Brillouin scattering in As2S3 waveguides with soft claddings of Benzocyclobutene, Opt. Commun. 509, 127879 (2022).

2021

[38] D. Pan#, L. Wan#, M. Ouyang, W. Zhang, A. A. Potapov, W. Liu, Z. Liang, T. Feng*, and Z. Li*, Laplace metasurfaces for optical analog computing based on quasi-bound states in the continuum, Photon. Res. 9, 1758 (2021). (Editors’ Pick) [一区，IF 7.254]

[37] S. Yang, L. Wan, F. Wang, A. A. Potapov, and T. Feng*, Strong optomechanical coupling in chain-like waveguides of silicon nanoparticles with quasi-bound states in the continuum, Opt. Lett. 46, 4466-4469 (2021).

[36] L. Wan*, D. Pan, T. Feng*, W. Liu, and A. A. Potapov, A review of dielectric optical metasurfaces for spatial differentiation and edge detection, Front. Optoelectron. 14, 187-200 (2021). (Invited Review)

[35] Y. Xie, Z. Zhang, Y. Lin, T. Feng, and Y. Xu*, Magnetic Quasi-Bound State in the Continuum for Wireless Power Transfer, Phys. Rev. Appl. 15, 044024 (2021).

[34] J. Song, X. Guo*, W. Peng, J. Pan, L. Wan, T. Feng, S. Zeng, D. Liu, B. Zhang, M. Zhang, and Z. Li, Stimulated Brillouin Scattering in Low-loss Ge25Sb10S65 Chalcogenide Waveguides, J. Lightw. Technol. 39. 5048-5053 (2021).

[33] J. Zhu, L. Wan*, C. Zhao, R. Sakai, Y. Mikami, T. Feng, C. Chen, W. Liu, H. Yoshioka, Z. Li, and Y. Oki*, Tunable and flexible deep-ultraviolet bandpass filters based on micro- and nanoparticle/polydimethylsiloxane hybrid membranes, Opt. Mater. 115, 111073 (2021).

2020

[32] T. Feng*, A. A. Potapov, Z. Liang, and Y. Xu, Huygens Metasurfaces Based on Congener Dipole Excitations, Phys. Rev. Appl. 13, 021002 (2020). (Letter)

[31] T. Feng*, S. Yang, N. Lai, W. Chen, D. Pan, W. Zhang, A. A. Potapov, Z. Liang, and Y. Xu, Manipulating light scattering by nanoparticles with magnetoelectric coupling, Phys. Rev. B 102, 205428 (2020).

[30] L. Wan, D. Pan, S. Yang, W. Zhang, A. A. Potapov, X. Wu, W. Liu, T. Feng*, and Z. Li*, Optical analog computing of spatial differentiation and edge detection with dielectric metasurfaces, Opt. Lett. 45, 2070-2073 (2020).

[29] Y. Lin, T. Feng, S. Lan, J. Liu, and Y. Xu*, On-Chip Diffraction-Free Beam Guiding beyond the Light Cone, Phys. Rev. Appl. 13, 064032 (2020).

[28] Y. Xie, M. Liu, T. Feng and Y. Xu*, Compact disordered magnetic resonators designed by simulated annealing algorithm, Nanophotonics 9, 3629-3636 (2020).

[27] M. Liu, Y. Xie, T. Feng, and Y. Xu*, Resonant broadband unidirectional light scattering based on genetic algorithm, Opt. Lett. 45, 968-971 (2020).

2019

[26] Z. Liu, Y. Xu*, Y. Lin, J. Xiang, T. Feng, Q. Cao, J. Li, S. Lan, and J. Liu*, High-Q quasibound states in the continuum for nonlinear metasurfaces, Phys. Rev. Lett. 123, 253901 (2019).

[25] D. Pan, T. Feng*, W. Zhang, and A. A. Potapov, Unidirectional light scattering by electric dipoles induced in plasmonic nanoparticles, Opt. Lett. 44, 2943-2946 (2019).

[24] T. Yuan, T. Feng, and Y. Xu*, Manipulation of transmission by engineered disorder in one-dimensional photonic crystals, Opt. Express 27, 6483 (2019).

2018

[23] T. Feng, W. Zhang, Z. Liang, Y. Xu*, and A. E. Miroshnichenko*, Isotropic magnetic Purcell effect, ACS Photon. 5, 678 (2018).

[22] Y. He, G. Guo, T. Feng, Y. Xu*, and A. E. Miroshnichenko, Toroidal dipole bound states in the continuum, Phys. Rev. B 98, 161112(R) (2018).

[21] G. Guo, T. Feng, and Y. Xu*, Tunable optical pulling force mediated by resonant electromagnetic coupling, Opt. Lett. 43, 4961-4964 (2018).

[20] T. Feng, W. Zhang, Z. Liang, and Y. Xu*, Unidirectional emission in an all-dielectric nanoantenna, J. Phys.: Consens. Matter 30, 124002 (2018).

2017

[19] T. Feng, Y. Xu*, W. Zhang, and A. E. Miroshnichenko*, Ideal magnetic dipole scattering, Phys. Rev. Lett. 118, 73901 (2017).

[18] T. Feng, J. Xiang, C. Zhang, Z. Liang, and Y. Xu*, Ultrathin conductive coating effects on the magnetic and electric resonances of silicon nanoparticles, J. Opt. Soc. Am. B 34, 653-657 (2017).

2016

[17] T. Feng, Y. Xu*, Z. Liang, and W. Zhang, All-dielectric hollow nanodisk for tailoring magnetic dipole emission, Opt. Lett. 41, 5011-5014 (2016).

Before 2016(Selected）

[10] Z. Liang#, T. Feng#, S. Lok#, F. Liu, K. B. Ng, C. H. Chan, J. Wang, S. Han*, S. Lee, and J. Li*, Sci. Rep. 3, 1614(2013). 

[9] T. Feng, F. Liu, W. Y. Tam, and J. Li*, EPL 102, 18003 (2013).

[8] X. Yin, T. Feng, S. P. Yip, Z. Liang, A. Hui, J. C. Ho, and J. Li*, Appl. Phys. Lett. 103, 021115 (2013).

[7] M. Kang, T. Feng, H. -T. Wang, and J. Li*, Opt. Express 20, 15882 (2012). 

[6] N. Usami*, W. Pan, T. Tayagaki, S. T. Chu, J. Li, T. Feng, Y. Hoshi, and T. Kiguchi, Nanotechnology 23, 185401 (2012).

[5] X. Yin, T. Feng, Z. Liang, and J. Li*, Opt. Express 20, 8543 (2012).

[4] T. Feng, Y. Zhou, D. Liu, and J. Li*, Opt. Lett. 36, 2369 (2011).

[3] C. T. Yip, H. Huang*, L. Zhou*, K. Xie, Y. Wang, T. Feng, J. Li, and W. Y. Tam, Adv. Mater. 23, 5624 (2011).

[2] Y. Zhou, T. Feng, Z. Liang, J. Li*, and D. Liu, EPL 96, 240015(2011).

[1] T. Feng, Q. Dai, L. Wu, Q. Guo, W. Hu, and S. Lan*, Chinese Phys. B 17, 4533 (2008).

项目组在新型信息技术与系统，特别是光电信息功能器件与系统、光电信息处理方法及技术等研究方向上取得了良好成果。

[4] 广东省自然科学基青年提升项目（2023-2025）

[3] 广东省自然科学基金面上项目（2021-2023）

[2] 国家自然科学基金青年基金（2018-2020）

[1] 中央高校基本科研业务费专项资金（2017-2019）

国家发明专利

[5]  冯天华，欧阳敏，潘丹平，一种基于超表面的光学加密系统及方法，CN114759985B，2024.(授权)

[4]  冯天华，潘丹平，张卫，亚历山大.波特波夫，一种图像边缘检测系统及方法，CN110853066A，2020.

[3]  郝锐，冯天华，但冬梅，付堉皓，电子设备的外壳及电子设备，CN107565216A，2018.

[2]  郝锐，冯天华，反射型的显示装置及其制造方法，CN105159006A, 2015.(授权)

[1]  郝锐，冯天华，控制显示角度的显示装置及其制造方法，CN105204193A, 2015. (授权)

数理方程引论（本科）、微波技术基础（本科）、高等电磁理论与技术前沿（研究生）

主要学术兼职：

1. 广东省自然科学基金函评专家；

2. Nature Communications, Optica, Physical Review Letters等国际权威期刊审稿人；

3. 美国光学学会（OPTICA）等学会会员。