主讲课程：电磁场与电磁波，电磁波仿真技术，物理光学，数学物理方法，微波原理与技术，非线性光纤光学原理及应用

社会服务：屹博电子、东昇射频、扬芯科技、华创电磁等公司技术顾问。

联系方式：tzx@hnu.edu.cn

2022.02 -至今，湖南大学物理与微电子学院，电子科学与技术系

2007.07 - 2022.01，湖南大学信息科学与工程学院，通信工程系

2013.10 - 2014.10，新加坡国立大学电气与计算机工程系Aaron Danner和Chengwei Qiu小组访问

2007，毕业于中国科学院上海光学精密机械研究所，获光学工程博士学位

2004，毕业于湘潭大学材料与光电物理学院，获物理电子学硕士学位

2001，毕业于湘潭大学物理系，获材料物理学学士学位并免试推荐攻读硕士学位

发表论文：

[1]Yixuan Zeng, Guangwei Hu*, Guangtao Cao, Shaohua Dong, Kaipeng Liu, ZhixiangTang*, and Cheng-wei Qiu. Bound states in the continuum on flatbands of symmetry-broken photonic crystal slabs. J. Opt. 24, 054009 (2022).

[2]Chao Wang, RuZhi Wang*, ZeLin An, LiYing Liu, YunSheng Zhou, ZhiXiang Tang*, WeiDong Wang and ShengJun Zhang. A low-cost digital coding metasurface applying modified 'crusades-like' cell topologies for broadband RCS reduction. J. Phys. D: Appl. Phys. 55, 485001(2022).

[3]Renyong Wu, Jieming Ma, Zhixiang Tang, Xiehua Li, and Kim-Kwang Raymond Choo. A Generic Secure Transmission Scheme Based on Random Linear Network Coding. IEEE/ACM TRANSACTIONS ON NETWORKING, 30(2), 855(2022).

[4]Yixuan Zeng, Guangwei Hu*, Kaipeng Liu, ZhixiangTang*, and Cheng-wei Qiu*, Dynamics of topological polarization singularity inmomentum space. Phys. Rev. Lett. 127, 176101(2021)

[5]Min Zhang, Xiubo Jia, Zhixiang Tang*, YixuanZeng , Xuejiao Wang , Yi Liu and Yuqing Ling. A Fastand Accurate Method for Computing the Microwave Heating of Moving Objects. Appl.Sci. 10, 2985 (2020).

[6]X. Chen, X. Jia, Z. Wu, Z. X. Tang*, Y. X.Zeng, X. J. Wang, X. Q. Fu and Y. H. Zou, A Graphite-based Metamaterial Microwave Absorber, IEEE Antennas and Wireless PropagationLetters, 18(5): 1016 (2019).

[7]Yixuan Zeng, Zhixiang Tang,* ZhengZhou, Xuejiao Wang, Xin Chen,Xiquan Fu, Shengye Huang, Yanhong Zou, and RunwuPeng. A polarization- and direction-independent phase-matching for thirdharmonic generation. J. Opt. 21, 045501 (2019).

[8]Liuyang Heng, Zilong Zhang, Xiqiao Chen, ShuaiWang, Zhuang Wu, Zhiyong Xie, Zhixiang Tang, * andYanhong Zou, * . Fe/nanoporous carbon hybrid derived from metal-organic framework for highly effective microwave absorption, Appl. Organometal Chem. e4991 (2019).

[9]Liuyang Heng, Zilong Zhang, Shuai Wang, XiqiaoChen, Xiubo Jia,Yanhong Zou, * and Zhixiang Tang, *. Microwaveabsorption enhancement of Fe/C core-shell hybrid derived from a metal-organicframework. NANO, 14(1) 1950002(2019).

[10]Xuejiao Wang, Xupeng Zhu, Huimin Shi, Yiqin Chen,Zhiquan Chen, Yixuan Zeng, Zhixiang Tang, * and Huigao Duan*.Three-Dimensional-Stacked Gold Nanoparticles with Sub-5 nm Gaps on VerticallyAligned TiO2 Nanosheets for Surface-Enhanced Raman Scattering DetectionDown to 10 fM Scale. ACS Appl. Mater. Interfaces, 10 (41),35607–35614(2018) .

[11]Yixuan Zeng, Zhixiang Tang, * XuejiaoWang, Xin Chen,Xiquan Fu, Shengye Huang, Yanhong Zou, * and RunwuPeng. Reversing the sign of the effective nonlinear coefficient of a nearlyisotropic Kerr photonic crystal via local-field effect. Opt. Mater.Express 8(8), 2256-2263(2018).

[12]Meng Qiu, Lei Zhang, Zhixiang Tang, Wei Jin,Cheng-Wei Qiu, and Dang Yuan Lei, 3D Metaphotonic Nanostructures with Intrinsic Chirality, Adv. Funct. Mater. 28: 1803147(2018).

[13]Xiqiao Chen, Xin Chen, Zilong Zhang, Zilin Wang,Liuyang Heng,Shuai Wang, Yanhong Zou, * and Zhixiang Tang, *. Anultra-broadband and lightweight fishnet-like absorber in microwaveregion. J. Phys. D: Appl. Phys. 51, 285002(2018).

[14]Zilong Zhang, Zilin Wang, Liuyang Heng, Shuai Wang,Xiqiao Chen,Xiquan Fu, Yanhong Zou,* and Zhixiang Tang,*. Improvingthe electromagnetic wave absorption properties of the layered MoS2 bycladding with Ninanoparticles. J. Phys. Soc. Jpn. 87, 054402 (2018).

[15]Zilong Zhang, Xiqiao, Chen, Zilin Wang, LiuyangHeng, Shuai Wang, Zhixiang Tang, and Yanhong Zou*. Carbonyl iron/graphite microspheres with good impedance matching for ultra-broadband and highlyefficient electromagnetic absorption. Opt. Mater. Express 8(11),3319-3331(2018).

[16]Xuejiao Wang, Xupeng Zhu, Yiqin Chen, Mengjie Zheng, Quan Xiang, Zhixiang Tang, Guanghua Zhang, and Huigao Duan. Sensitive Surface-Enhanced Raman ScatteringDetection Using On-Demand Post assembled Particle-on-Film Structure. ACS Appl. Mater. Interfaces, 9(36): 31102–31110 (2017).

[17]Zhixiang Tang, Lei Zhao,Zhan Sui, Yanhong Zou,Shuangchun Wen, Aaron Danner, and Chengwei Qiu, Switchable self-defocusingand focusing in nearly isotropic photonic crystals via enhanced inversediffraction. Phys. Rev. A 91, 063824(2015).

[18]Zhixiang Tang, Wei Yi, Jin Pan, Yanhong Zou,Shuangchun Wen, Aaron Danner, and Chengwei Qiu, Physical mechanisms for tuningthe nonlinear effects in photonic crystals. Opt. Express 23,19885(2015).

发明专利：

[1]一种改善静态微波谐振腔腔内电磁场均匀性的方法，发明专利号：ZL 2022 1 0361018. 9

[2]利用可调人工磁导体改善微波腔内电磁场均匀性的装置及方法，发明专利号：ZL 2022 1 0356893. 8

[3]一种利用电磁超材料改善微波处理均匀性的方法，发明专利号：ZL 2022 1 0374365.5

[4]一种能连续平移微波腔内电磁场的微波谐振腔，发明专利号：ZL 2022 1 0361202.3

[1]2021年，获湖南省光学学会进展奖一等奖

[2]2017年，获湖南省第二届微课大赛高等教育组二等奖

[3]获2007年度中国科学院优秀研究生院长奖、上海市普通高校优秀毕业生