今天是:

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桑田

性别:男

出生日期:1978.5

职称、职务:教授

电话(手机):13812509395

Email: sangt@jiangnan.edu.cn


 


   【学术简介】

博士,教授,硕导。365体育官方唯一入口光电信息科学与工程系教师,江苏省物理学会光学与原子分子物理专委会委员,中国物理学会、江苏省物理学会会员,中德科学中心Fellow。主要在微纳光学、亚波长光学等领域开展研究工作,发表论文100余篇,其中SCI论文80余篇,授权国家发明专利15项,出版教材和著作各1部。先后主持或参加国家级、省厅级科研项目10余项,曾获贵州省青年科技奖、贵州省科技进步二等奖、贵州省优秀教师等荣誉。教学方面近年来主持完成校级教改重点项目1项,指导多名同学获得江苏省研究生实践创新项目、研究生海外交流项目、校级大创项目立项,入选江苏省优秀本科毕设团队等,个人获评江苏省大学生物理及实验创新竞赛优秀指导教师、2017-2019学年度江南大学优秀教育工作者、2022365体育官方唯一入口先锋工程导师育人示范岗、学科建设示范岗

【工作及研究经历】:

2015.1-至今 江南大学,365体育官方唯一入口,任教

2019.12-2020.12 美国西北大学,电子与计算机工程系,访问学者

2013.9-2014.9 中国科学院光电研究院,光电工程部,访问学者

2006.3-2009.3 同济大学,物理系,光学,博士

2003.9-2006.2 同济大学,物理系,光学工程,硕士

2000.8-2014.11 黔南民族师范学院,物理与电子科学系,任教

【研究领域】

微纳光学、亚波长光学、人工微结构光场调控与器件开发。

【主要论著】

主要论文:

[1] Zekun Ge, Tain Sang*, Shi Li, Chen Luo, Yueke Wang, Active control of resonant asymmetric transmission based on topological edge states in paired photonic crystals with a Ge2Sb2Te5 film, Applied Optics, 62(22), 5969–975 (2023).

[2] Xianghu Zhang, Tian Sang*, Chui Pian, Yueke Wang, Jicheng Wang, Dual-band polarization-independent high quality factor Fano resonances using a twisted tetrameric nanohole slab, Journal of the Optical Society of America B, 40(7), 1652–1660 (2023).

[3] Chen Luo, Tian Sang*, Shi Li, Chaoyu Yang, Zekun Ge, Yueke Wang, Stretchable chiral metamaterial for flexible control of broadband asymmetric transmission, Plasmonics, 18 (1): 29–37 (2023).

[4] Chui Pian, Tian Sang*, Shi Li, Chaoyu Yang, Xianghu Zhang, Selective excitation of hyperbolic phonon polaritons-induced broadband absorption via αMoO3 square pyramid arrays, Discover Nano, 18: 41 (2023).

[5] Yao Pei, Tian Sang*, Qing Mi, Jicheng Wang, Yueke Wang, Broadband absorption of monolayer MoS2 in visible region using a tetramerized nanorod metasurface, Journal of Optics, 24: 024001 (2022).

[6] Tian Sang*, Yao Pei, Qing Mi, Shi Li, Chaoyu Yang, Yueke Wang, Guoyang Cao, Lithography-free tunable absorber at visible region via one-dimensional photonic crystals consisting of an α-MoO3 layer, Optics Express, 30(9), 14408–14420 (2022).

[7] Mingxing li, Yueke Wang*, Tian Sang*, Hongchen Chu*, Yun Lai, Guofeng Yang, Experimental observation of multiple edge and corner states in photonic slabs heterostructure, Photonics Research, 10(1): 197–204 (2022).

[8] Tian Sang*, Sina Abedini Dereshgi,Wisnu Hadibrata, Ibrahim Tanriover, Koray Aydin*, Highly efficient light absorption of monolayer graphene by quasi-bound state in the continuum, Nanomaterials 11(2): 484 (2021).

[9] Xun Wang, Tian Sang*, Guoqing Li, Qing Mi, Yao Pei, Yueke Wang, Ultrabroadband and ultrathin absorber based on an encapsulated T-shaped metasurface, Optics Express, 29(20): 31311–31323 (2021).

[10] Qing Mi, Tian Sang*, Yao Pei, Chaoyu Yang, Shi Li, Yueke Wang, Bin Ma, High-quality-factor dual-band Fano resonances induced by dual bound states in the continuum using a planar nanohole slab, Nanoscale Research Letters, 16, 150 (2021).

[11] Tian Sang*, Xin Yin, Honglong Qi, Jian Gao, Xinshang Niu, Hongfei Jiao*, Resonant excitation analysis on asymmetrical lateral leakage of light in finite zero-contrast grating mirror, IEEE Photonics Journals, 12(2): 4500111 (2020).

[12] Honglong Qi, Tian Sang*, Xin Yin, Xun Wang, Guoqing Li, Dual-band absorption enhancement of monolayer molybdenum disulfide by a tapered metamaterial waveguide slab, Applied Physics Express 13, 065001 (2020).

[13] Xun Wang, Tian Sang* , Honglong Qi, Guoqing Li, Xin Yin, Yueke WangCascaded nanorod arrays for ultrabroadband, omnidirectional and polarization-insensitive absorptionApplied Sciences 10, 3878 (2020).

[14] Guoqing Li, Tian Sang*, Honglong Qi, Xun Wang, Xin Yin, Yueke Wang, Lian Hu, Flexible control of absorption enhancement ofcircularly polarized light via square graphene disks, OSA Continuum, 8(3): 1999–2009 (2020).

[15] Lei zhou, Yueke Wang, Jiaxin Zhou, Jian Ding, Mengjia Lu, Tian Sang*, Tunable asymmetric transmission acrossstretchable chiral metamaterial, Applied Optics, 59(23): 6868–6872 (2020).

[16] Tian Sang*, Honglong Qi, Xun Wang, Xin Yin, Guoqing Li, Xinshang Niu, Bin Ma, Hongfei Jiao*, Ultrabroadband absorption enhancement via hybridization of localized and propagating surface plasmons, Nanomaterials, 10: 1625 (2020).

[17] Xin Yin, Tian Sang*, Honglong Qi, Guoqing Li, Xun Wang, Jicheng Wang, Yueke Wang, Symmetry-broken square silicon patches for ultra-narrowband light absorption, Scientific Reports, 9: 17477 (2019).

[18] Honglong Qi, Tian Sang*, La Wang, Xin Yin, Jicheng Wang, Yueke Wang, Dual-band light absorption enhancement in hyperbolic rectangular array, Applied Sciences, 9, 2011 (2019).

[19] Tian Sang*, Jian Gao, Xin Yin, Honglong Qi, La Wang, Hongfei Jiao*, Angle-insensitive broadband absorption enhancement of graphene using a multi-grooved metasurface, Nanoscale Research Letters, 14: 105 (2019).

[20] Jianyu Zhou, Tian Sang*, Junlang Li, La Wang, Rui Wang, Yueke Wang, Jicheng Wang, Resonant modal analysis and dual-mode tailoring in high refractive index contrast two-dimensional nanorod arrays, Optik, 181: 231–238 (2019).

[21] Tian Sang*, Jian Gao, La Wang, Honglong Qi, Xin Yin, Yueke Wang, Numerical study of angle-insensitive and tunable dual-band THz absorber using periodic cross-shaped graphene arrays, Materials, 12, 2063 (2019).

[22] La Wang, Tian Sang*, Jian Gao, Xin Yin, Honglong Qi, High-performance sensor achieved by hybrid guide-mode resonance/surface plasmon resonance platform, Applied Optics, 57(25): 7338–7343 (2018).

[23] Tian Sang*, Rui Wang, Junlang Li, Jianyu Zhou, Yueke Wang, Approaching total absorption of graphene strips using a c-Si subwavelength periodic membrane, Optics Communications, 413: 255–260 (2018).

[24] La Wang, Tian Sang*, Junlang Li, Jianyu Zhou, Benxin Wang, Yueke Wang, High-sensitive transmission type of gas sensor based on guided-mode resonance in coupled gratings, Journal of Modern Optics, 65(13): 1601–1608 (2018).

[25] 高健, 桑田*, 李俊浪, 王啦, 利用窄刻槽金属光栅实现石墨烯双通道吸收增强, 物理学报, 67(18): 184210 (2018).

[26] Rui Wang, Tian Sang*, La Wang, Jian Gao, Yueke Wang, Jicheng Wang, Enhanced absorption of a monolayer graphene using encapsulated cascaded gratings, Optik, 157: 651–657 (2018).

[27] Junlang Li, Tian Sang*, Jianyu Zhou, Rui Wang, Hongyan Shao, Yueke Wang, High Q reflection filter using a gradient-index membrane with a grating surface, Optoelectronics Letters, 14: 12–16 (2018).

[28] Jianyu Zhou, Tian Sang*, Junlang Li, Rui Wang, La Wang, Benxin Wang, Yueke Wang, Modal analysis on resonant excitation of two-dimensional waveguide grating filters, Optics Communications, 405: 350–354 (2017).

[29] Hongyan Shao, Jicheng Wang*, Xiushan Xia, Dongdong Liu, Zheng-Da Hu, Tian Sang*, Plasmonic planar lens based on slanted nanoslits array, Plasmonics, 12(2): 361–367, (2017).

[30] Tian Sang*, Yueke Wang, Junlang Li, Jianyu Zhou, Wenwen Jiang, Jicheng Wang, Guoqing Chen, Bandwidth tunable guided-mode resonance filter using contact coupled gratings at oblique incidence, Optics Communications, 382: 138–143 (2017).

[31] Tian Sang*, Guoqing Chen, Yueke Wang, Benxin Wang, Wenwen Jiang, Tianzhuo Zhao, Shaohong Cai, Tunable optical reflectance using a monolithic encapsulated Ggrating, Optics and Laser Technology, 83: 163–167 (2016).

[32] 桑田, 蔡托, 刘芳, 蔡绍洪*, 张大伟, 带虚设层的抗反射结构导模共振滤波器设计与分析, 物理学报, 62(2): 024215 (2013).

[33] Tian Sang, Shaohong Cai*, Xun Zhou, Zhanshan Wang, Guided-mode resonance excitation of waveguide grating at oblique incidence in the non-subwavelength region, Journal of Modern Optics, 59(10): 893–902 (2012).

[34] Tian Sang, Hua Zhao, Shaohong Cai*, Zhanshan Wang, Design of Guided-mode resonance filters with an antireflective surface at oblique incidence, Optics Communications, 285(3): 258–263 (2012).

[35] Tian Sang, Tuo Cai, Shaohong Cai*, Zhanshan Wang, Tunable transmission filters based on double subwavelength periodic membrane structures with an air gap, Journal of Optics, 13(12): 125706 (2011).

[36] Tian Sang, Shaohong Cai*, Zhanshan Wang, Guided-mode resonance Filter with an antireflective surface consisting of a buffer layer with refractive index equal to that of the grating, Journal of Modern Optics, 58(14): 1260–1268 (2011).

[37] Tian Sang, Zhanshan Wang, Xun Zhou, Shaohong Cai*, Resonant enhancement transmission in a Ge subwavelength periodic membrane, Applied Physics Letters, 97(7): 071107 (2010).

[38] Tian Sang, Li Wang, Shiyin Ji, Hong Chen, Zhanshan Wang*, Systematic study of the mirror effect in a poly-si subwavelength periodic membrane, Journal of the Optical Society of America A, 26(3): 559–565 (2009).

[39] Tian Sang, Zhanshan Wang*, Jingtao Zhu, Li Wang, Yonggang Wu, Lingyan Chen, Linewidth properties of double-layer surface-relief Resonant Brewster filters with equal refractive index, Optics Express, 15(15): 9659–9665 (2007).

[40] Tian Sang, Zhanshan Wang*, Li Wang, Yonggang Wu, Lingyan Chen, Resonant excitation analysis of sub-wavelength dielectric grating, Journal of Optics A: Pure and Applied Optics, 8(1): 62–66 (2006).

主要著作:

[1] 桑田, 王占山 , 导模共振光学元件研究, 同济大学出版社, 2020.

[2] 蔡托, 桑田 编著, 数学物理方法教程, 科学出版社, 2015.

【科研、教学项目】

科研项目:

1. 国家自然科学基金面上项目,手性准连续谱束缚态的共振机制与增强圆二色研究,2024. 1–2027.12,在研,主持

2. 国家自然科学基金面上项目,近地空间环境下透射元件的激光损伤性能衰退机制研究,2020. 1–2023.12,在研,参加

3. 国家自然科学基金委员会与白俄罗斯基础研究基金会合作交流项目,高灵敏度多层超材料微结构光学传感器设计与机理研究,2018.1–2019.12,已结题,参加

4. 贵州省教育厅科研创新团队项目,微纳半导体与介观物理创新团队,2013.10-2015.12,已结题,主持(2013.10–2014.10

5. 贵州省教育厅高等学校优秀人才支持计划,2012年,光学

6. 国家自然科学基金地区项目,导模共振亚波长光栅的衍射特性研究,2011.1–2013.12,已结题,主持

7. 贵州省科学技术基金项目,亚波长微纳光栅的光谱特性研究,2010.9–2012.9,已结题,主持

【科研、教学成果及获奖】

科研获奖:

1. 201312月,获第十二届贵州省青年科技奖

2. 201312月,获贵州省科技进步二等奖

3. 20105月,获第三届贵州省自然科学优秀学术论文奖

【荣誉与奖励】

1. 20199月,获评2017-2019学年度江南大学优秀教育工作者

2. 20139月,获贵州省优秀教师称号

【在读硕、博士人数】

硕士9

【已毕业硕、博士人数】

硕士15

【以上资料更新日期】

202310


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