汤文轩

发布者：沈如达发布时间：2023-10-25浏览次数：356

	职称：教授，博导
	办公室：李文正楼北622
	办公电话：83793275
	Email：wenxuant@seu.edu.cn
学习经历：
2002/09-2006/06 东南大学本科 2006/09-2009/03 东南大学硕士 2009/03-2012/11 伦敦大学玛丽女王学院博士
工作经历:
2012/11-至今毫米波国家重点实验室
教授课程：
电磁场与电磁波 —本科生电磁材料测量与分析（全英文）—研究生科技英语写作（全英文） —研究生
研究方向：
学科方向：电磁场与微波技术研究领域：电磁超材料理论和应用研究；人工表面等离激元新体制电路；超材料智能传感器
获奖情况：
2023 IEEE iWEM会议最佳论文奖和2015 IEEE MTT-S IMWS-AMP会议最佳学生论文奖（指导教师）首批全国高校黄大年式教师团队成员（2018）第二届江苏省十佳研究生导师团队成员（2020）东南大学青年特聘教授（2021）东南大学至善青年学者（A类）（2019） 2016年中国光学重要成果奖
论文著作：
出版专著 [1] Tie Jun Cui, Wen Xuan Tang, Wei Xiang Jiang, Zhong Lei Mei and Xin Mi Yang, 《Metamaterials: Beyond Crystals, Noncrystals, and Quasicrystals》, CRC Press，2016 [2] Microwave antennas based on metamaterials and metasurfaces（章节），Tang, Wen Xuan ; Cui, Tie Jun，DEVELOPMENTS IN ANTENNA ANALYSIS AND DESIGN, VOL 1，pp. 407-444, 2018 主要论文 [1] W. Li, Q. Ma, C. Liu, Y. Zhang, X. Wu, J. Wang, S. Gao, T. Qiu, T. Liu, Q. Xiao, J. Wei, T. T. Gu, Z. Zhou, F. Li, Q. Cheng, L. Li, W. Tang* and T. J. Cui, “Intelligent metasurface system for automatic tracking of moving targets and wireless communications based on computer vision,” Nat. Commun. 14, 989, 2023. [2] Jiaxuan Wei, Weihan Li, Ling Yun Niu, Shizhao Gao, Tie Jun Cui and Wenxuan Tang, “Bendable transmission line and amplifier of spoof surface plasmon polaritons at microwave frequencies,” Optics Express 31(1), 755-764, 2023. [3] Z. Qiu, Y. Xia, B. Wang, Y. Hua, W. Li, W. Tang* and T. J. Cui, “A metamaterial based microfluidic sensor for permittivity detection of liquid,” J. Phys. D: Appl. Phys. 55, 435001, 2022.（本科生国创优秀项目成果） [4] Jiayu Chen, Weihan Li, Yunfeng Zhang, Wenyu Ma, Wenxuan Tang and Tiejun Cui, “Absorption-transmission-type multifunctional coding metasurface,” J. Phys. D: Appl. Phys. 55 (40), 405003, 2022. [5] Francisco J. Garcia-Vidal, Antonio I. Fernández-Domínguez, Luis Martin-Moreno, Hao Chi Zhang, Wenxuan Tang, Ruwen Peng, and Tie Jun Cui, “Spoof surface plasmon photonics,” Reviews of Modern Physics (Rev. Mod. Phys.), 94(2), 025004, 2022. [6] Yujie Hua, Wenxuan Tang, and Tie Jun Cui, “A metamaterial sensor for detecting the location of a sub-wavelength object,” Appl. Phys. Lett. 120(18), 181703 (2022) [7] Wenxuan Tang, Jia Chen, and Tie Jun Cui, “Metamaterial Lenses and Their Applications at Microwave Frequencies,” Advanced Photonics Research, 2100001, 2021. [8] X. T. Yan, W. Tang^#, J. F. Liu, M. Wang, X. X. Gao, and T. J. Cui, “Glide symmetry for mode control and significant suppression of coupling in dual-strip SSPP transmission lines,” Advanced Photonics, 3(2), 026001, 2021. [9] W. Tang, Y. Hua, and T. J. Cui, “A Compact Component for Multi-Band Rejection and Frequency Coding in the Plasmonic Circuit at Microwave Frequencies,” Electronics, 10(1), 4, 2021. [10]W. Tang^#, J. Wang^#, X. Yan, J. Liu, X. Gao, L. Zhang, and T. J. Cui, “Broadband and High-Efﬁciency Excitation of Spoof Surface Plasmon Polaritons Through Rectangular Waveguide,” Frontiers in Physics, 8, 582692, 2020. [11]W. X. Tang, H. C. Zhang, H. F. Ma, W. X. Jiang and T. J. Cui, “Concept, Theory, Design, and Applications of Spoof Surface Plasmon Polaritons at Microwave Frequencies,” Advanced Optical Materials, 7, 1800421, 2019. [12]W. X. Tang and T. J. Cui, “The engineering way from spoof surface plasmon polaritons to radiations,” EPJ Appl. Metamat., 6, 9, 2019. [13]X. G. Zhang, W. X. Tang#, W. X. Jiang, G. D. Bai, J. Tang, L. Bai, C.-W. Qiu, and T. J. Cui, Light-Controllable Digital Coding Metasurfaces, Advanced Science, 1801028, 2018. [14]W. X. Tang, H. C. Zhang, J. F. Liu, J. Xu and T. J. Cui, “Reduction of radiation loss at small-radius bend using spoof surface plasmon polariton transmission line,” Scientific Reports 7, 41077, 2017. [15]汤文轩，张浩驰，崔铁军，人工表面等离激元及其在微波频段的应用，《信息学报》，第39 卷第1 期，2017. [16]W. Tang, R. Yang, and Y. Hao, “Compression of a pyramidal absorber using multiple discrete coordinate transformation,” Optics Express, 22(8), 9033, 2014. [17]B. C. Pan, W. X. Tang, M. Q. Qi, H. F. Ma, Z. Tao and T. J. Cui, “Reduction of the spatially mutual coupling between dual-polarized patch antennas using coupled metamaterial slabs,” Scientific Reports 6, 30288, 2016. [18]L. H. Yuan, W. X. Tang, H. Li, Q. Cheng, and T. J. Cui, “Three-dimensional anisotropic zero-index lenses,” IEEE Transaction on Antennas and Propagation, 62 (8), 4135, 2014. [19]J. Xu, H. C. Zhang, W. X. Tang, J. Guo, C. Qian, and W. Y. Li, “Transmission-spectrum-controllable spoof surface plasmon polaritons using tunable metamaterial particles,” Applied Physics Letters, 108, 191906, 2016. [20]M. Q. Qi, W. X. Tang, H. F. Ma, B. C. Pan, Z. Tao, Y. Z. Sun and T. J. Cui, “Suppressing side-lobe radiations of horn antenna by loading metamaterial lens,” Scientific Reports 5, 9113, 2015. [21]W. Tang, Y. Hao, and R. Mittra, “Design of a carpet cloak to conceal an antenna located underneath,” IEEE Transaction on Antennas and Propagation, 60 (9), 4444, 2012. [22]W. Tang, Y. Hao, and F. Medina, “Broadband extraordinary transmission in a single sub-wavelength aperture,” Optics Express, 18(16), 16946, 2010. [23]W. Tang, C. Argyropoulos, E. Kallos, W. Song, and Y. Hao, “Discrete coordinate transformation for designing all-dielectric flat antennas,” IEEE Transaction on Antennas and Propagation, 58(12), 3795, 2010.
科研项目：
项目名称		项目类别		项目时间	工作类别		项目金额
基于聚合物先驱体陶瓷的超材料无线无源薄膜传感器设计、制备与测试		国家重点研发计划课题（主持）		2021-2024	应用研究		226万
高对称人工表面等离激元超材料的理论及应用		国家自然科学基金面上项目（主持）		2020-2023	应用基础研究		59万
XXX		主持		2019-2021	应用研究		390万
XXX		主持		2021-2023	应用研究		180万
微波毫米波数字编码和现场可编程超构材料的理论体系与关键技术		国家重点研发计划项目子课题（主持）		2018-2023	应用研究		76.71万
离散光学变换理论及其应用		国家自然科学基金青年项目（主持）		2015-2017	应用基础研究		25万
人工表面等离激元的调控和应用		中央高校基本科研业务费专项（主持）		2020-2022	基础研究		30万
基于人工表面等离激元的微波器件与系统		国家自然科学基金重点项目（参与）		2017-2021	基础研究		265万
专利：
专利号			专利名称			专利类型
ZL201510387021.8			一种基于新型人工电磁材料的电压控制波束可调透镜天线			发明专利
ZL201310129820.6			一种基于人工表面等离激元的插分滤波器			发明专利
ZL201310190179.7			一种基于新型人工电磁材料的宽频带低副瓣透镜天线			发明专利
ZL201910513560.X			具有滑移对称特性的人工表面等离激元传输网络			发明专利
ZL202111020922.5			利用半模槽线设计的宽带巴伦滤波器			发明专利
ZL202011068607.5			拉伸可重构人工表面等离激元传输线			发明专利