姓名:程敏
职称:教授
职务:无
学历:研究生
电子邮箱:cm949701@163.com
教育经历
1997年7月-2001年6月福建师范大学,物理专业,本科
2001年7月-2004年6月福建师范大学,光学专业,硕士研究生
工作经历
2004年7月-至今 Bwin必赢网址
研究方向
微纳结构中光学现象;含二维材料的物理体系中力学现象
主持项目
(1)2014-2016年,“有序石墨烯超晶格体系的输运性质及其器件应用(编号:2014J01017)”,福建省自然科学基金(7.0万)
(2)2018年-2021年,“可调控双曲特异材料中自旋-方向调控机制及其器件应用(编号:2018J01421)”,福建省自然科学基金(8.0万)
(3)2022年8月-至今, “多组分准周期石墨烯超晶格体系的传输特性及其相关器件应用(编号:2022J011129)”,福建省自然科学基金(10.0万)
(4)2023年-至今,“有序石墨烯超晶格体系的传输特性及其器件应用(编号:MFK23011)”,
Bwin必赢网址发树慈善基金会捐赠资金研究专项(项目类)(10.0万)
科研成果
论文
l Min Cheng*, “Giant and tunable 2D-chiroptical response in few-layer borophene metasurfaces”, Journal of the Optical Society of America B 40, 3307-3313(2023)
l Min Cheng*, “Enhanced and tunable Faraday effects in borophene metasurface bilayer”, Eur. Phys. J. B 96:137 (2023)
l Min Cheng*, Ping Fu, Shengyu Chen, Giant photonic spin Hall effect in bilayer borophene metasurfaces, Optics Express 30(22), 40075-40086 (2022)
l Min Cheng, Ping Fu, and Xiaoteng Tang, Tunable and enhanced optical activity in twisted graphene metasurface bilayers , Applied Optics 61(11), 3054-3060(2022)
l Min Cheng*, Ping Fu, Shengyu Chen, Enhanced and tunable photonic spin Hall effect in metasurface bilayers, Journal of the Optical Society of America B 39, 316-323(2022)
l Min Cheng*, Ping Fu, Shengyu Chen, Tunable Dyakonov surface waves in graphene-hBN hyperstructure, Optics Communications 482, 126630 (2021)
l Min Cheng*, Ping Fu, Shengyu Chen, Xiaoteng Tang, Xiyao Chen, Yingting Lin, and Shangyuan Feng, Enhanced transverse electric phonon polaritons in two-hexagonal boron nitride-layer structures, Applied Physics Express 11, 082601 (2018)
l Min Cheng*, Ping Fu, Xiaoteng Tang, Shengyu Chen, Xiyao Chen, Yingting Lin, and Shangyuan Feng, Tunable and enhanced spin Hall effect of light in layered nanostructures containing graphene, Journal of the Optical Society of America B 35(8),1829-1835(2018)
l Min Cheng*, Ping Fu, Yingting Lin, Xiyao Chen, Shengyu Chen, Xiaoteng Tang, Shangyuan Feng, Analysis of tunable and highly confined surface wave in the photonic hypercrystals containing graphene-based hyperbolic metamaterial, Superlattices and Microstructures 121, 75-85(2018)
l Min Cheng*, Ping Fu, Xiahui Zeng, Yingting Lin, Xiaoteng Tang, and Shangyuan Feng, Gate-voltage control of angular and spatial shifts for a dielectric slab containing graphene, Eur. Phys. J. D 70:158(2016)( DOI: 10.1140/epjd/e2016-60688-5)
l Min Cheng*, Ping Fu, Minghua Weng, Xiyao Chen, Xiahui Zeng, Shangyuan Feng and Rong Chen,Spatial and angular shifts of terahertz wave for the graphene metamaterial structure, J. Phys. D: Appl. Phys. 48, no.28, art ID: 285105, (Jun 2015)
l Min Cheng*, Ping Fu, Xiyao Chen, Xiahui Zeng, Shangyuan Feng, and Rong Chen, Giant and tunable Goos–Hanchen shifts for attenuated total reflection structure containing graphene, J. Opt. Soc. Am. B, vol.31, no.10, pp.2325-2329(2014)
l Min Cheng,Large thermoelectric effect in graphene superlattices,Physica E 46,189(2012)
l Min Cheng, Goos-Hänchen shift in bilayer graphene, Eur. Phys. J. B 85: 89(2012) (DOI: 10.1140/epjb/e2012-20729-7)
l Min Cheng, Enlargement of band gap in graphene superlattices by using heterostructures, Journal of Applied Physics 110, 026106 (2011)
l Min Cheng, Lowest oscillating mode in a nanoscale planar waveguide with double-negative material, Journal of Nanophotonics 3, 039504(2009)
l M. Cheng, R. Chen,Large positive and negative lateral shifts from an anisotropic metamaterial slab backed by a metal, Chinese Physics Letters 26, 0141011(2009)
l Min Cheng, Yingwu Zhou, Yuliang Li, Xuemei Li, Large positive and negative generalized Goos–Hänchen shifts from a double negative metamaterial slab backed by a metal, Journal of the Optical Society of America B 25,773-776(2008)
l M. Cheng, R. Chen and S. Feng, Lateral shifts of an optical beam in an anisotropic metamaterial slab,Eur. Phys. J. D 50, 81–85 (2008)
l Min Cheng, Forward- and backward-propagating Cerenkov radiation in strong chiral media, Optics Express 15, 9793-9798 (2007).