个人简历
主要教育与工作经历:
1999年9月 考入南开大学现代光学研究所
2001年9月 转攻博
2004年6月 获得博士学位
2004年7月 至今 南开大学现代光学研究所任教
2014年7月-2015年7月 美国 The University of Kansas 访问学者
专业技术职称:
2004年9月-2008年12月 讲师 南开大学
2009年1月-2016年12月 副研究员 南开大学
2017年1月至今 教授 南开大学
科研项目/成果/获奖/专利
科研项目情况:
1、 国家自然科学基金面上项目,62475121,面向生化物质检测的太赫兹多聚体超表面准连续束缚态和超手性场产生与调控研究,2025/01-2028/12, 48万元, 在研,主持
2、国家自然科学基金重点项目,61831012,太赫兹磁光微结构电磁调控机理与单向传输器件研究,290万,2019/01-2023/12,已结题,参加
3、天津市自然科学重点项目,19JCZDJC32700,全介质纳米结构定向散射的三维调控研究,20万,2019/04-2022/03,已结题,主持
4、 国家自然科学基金面上项目,61378005,聚焦矢量光束调控金纳米颗粒二次谐波响应的研究,2014/01-2017/12, 74万元, 已结题,主持
5、 国家高技术研究发展计划(863计划),2011AA010205,基于太赫兹量子级联激光器的无线通信系统研究,2011/07-2013/12,195万元,已结题,参加
6、 国家自然科学基金面上项目,61171027,多功能光子晶体太赫兹可调谐器件研究, 2012/01-2015/12,65万元,已结题,参加
7、 国家自然科学基金青年项目,10904076,螺旋轴锥镜产生的新型光束激发局域表面等离激元的研究,2010/01-2012/12,22万元,已结题,参加
8、 天津市自然科学基金重点项目,10JCZDJC15200,可调谐太赫兹功能器件的研究,2010/04-2013/03,20万元,已结题,参加
9、 国家自然科学基金青年项目,10704043,高数值孔径二次谐波显微术的机理研究,2008/01-2010/12,25万元,已结题,主持
专利情况:
1、王湘晖,傅宇航. 一种基于聚焦径向和线偏振光场的定向散射三维方向可调方法,国家知识产权局,发明专利,授权公告日:2024.8.27,专利号:ZL 2021 1 0723715.X
2、王湘晖,王建鑫. 一种基于硅长方体的高方向性横向单向散射实现方法,国家知识产权局,发明专利,授权公告日:2023.4.18,专利号:ZL 2020 1 1082812.7
3、王湘晖,王建鑫. 一种基于硅中空纳米碟的宽带横向单向散射实现方法,国家知识产权局,发明专利,授权公告日:2022.9.27,专利号:ZL 2019 1 1264074.5
论文/专著/教材
(1) Ming Zeng, Feng Zhao, Xianghui Wang. Optical Prediction Based on Less Selectively-Labeled Samples and Cross-Semi-Supervised Learning. IEEE PHOTONICS TECHNOLOGY LETTERS, 37(2): 61-64, 2025.
(2) Jixin Feng, Xianghui Wang, Weinan Shi, Liang Ma, Yunyun Ji, Fei Fan and Shengjiang Chang. Asymmetric dumbbell dimers simultaneously supporting quasi-bound states in continuum and anapole modes for terahertz biosensing. Nanophotonics,13(21): 4007-4017, 2024.
(3) Weinan Shi, Fei Fan, Shanshan Li, Liang Ma, Yi-Ming Wang, Xianghui Wang, and Shengjiang Chang. THz enantiomers of drugs recognized by the polarization enhancement of gold nanoparticles on an asymmetric metasurface. Nanoscale 15 (34), 14146-14154, 2024.
(4) Wei-Nan Shi, Fei Fan, Shan-Shan Li, Liang Ma, Yi-Ming Wang, Xiang-Hui Wang and Sheng-Jiang Chang. Enhanced Terahertz specific sensing for Alzheimer’s marker by Metasurface-Analyte union modification on Microfluidic sensor. IEEE Sensors Journal, 24, 7690-7699, 2024.
(5) Liang Ma, Wei-Nan Shi, Fei Fan, Zi-Yang Zhang, Tian-Rui Zhang, Jia-Yue Liu, Xiang-Hui Wang and Sheng-Jiang Chang. Terahertz polarization sensing, chirality enhancement, and specific binding based on metasurface sensors for biochemical detection: a review. Chinese Optics Letters 21 (11), 110003, 2023.
(6) Jixin Feng, Xianghui Wang, Jierong Cheng, and Ming Zeng. Polarization-independent bound state in the continuum without the help of rotational symmetry. Optics Letters, 48(18): 4829-4832, 2023.
(7) Wei-Nan Shi, Fei Fan, Liang Ma, Tian-Rui Zhang, Jia-Yue Liu, Jie-Rong Cheng, Xiang-Hui Wang, Sheng-Jiang Chang. Terahertz chiral enantiomers recognition via chiral selective bio-molecular film on anapole metasurface sensor in water environment. Optics & Laser Technology, 162, 109274, 2023.
(8) Wei-Nan Shi, Fei Fan, Tian-Rui Zhang, Jia-Yue Liu, Xiang-Hui Wang, Sheng-Jiang Chang. Terahertz phase shift sensing and identification of a chiral amino acid based on a protein-modified metasurface through the isoelectric point and peptide bonding. Biomed. Opt. Express 14, 1096-1106, 2023.
(9) Wenjing Liu, Xianghui Wang, and Ming Zeng. A nested U-shaped network for accurately predicting directional scattering of all-dielectric nanostructures. Optics Letters, 47(19): 5112-5115, 2022.
(10) Wei-Nan Shi, Fei Fan, Shan-Shan Li, Zi-Yang Zhang, Hong-Liang Liu, Xiang-Hui Wang and Sheng-Jiang Chang. Terahertz immunosensing assisted by functionalized Au NPs based on all-dielectric metasurface. Sensors and Actuators: B. Chemical 362:131777, 2022.
(11) Yuhang Fu, Xianghui Wang, Zhenyu Xing, Wenjing Liu, and Jierong Cheng. Directional control of the off-normal scattering from a single nanodisk by superposed linearly and radially polarized beams. Applied Optics 60(29):9205-9212, 2021.
(12) Zhenyu Xing, Xianghui Wang, Yuhang Fu, Wenjing Liu, Jierong Cheng, and Ming Zeng. Sharper photonic nanojets generated by microspheres under higher-order radially polarized beam illumination. Applied Optics 60(35):10816-10824, 2021.
(13) Wei-Nan Shi, Fei Fan, Zi-Yang Zhang, Tian-Rui Zhang, Shan-Shan Li, Xiang-Hui Wang and Sheng-Jiang Chang. Terahertz Sensing for R/S Chiral Ibuprofen via All-Dielectric Metasurface with Higher-Order Resonance. Applied Sciences 11:8892, 2021.
(14) Yiwu Yuan, Jierong Cheng, Xipu Dong, Fei Fan, Xianghui Wang, Shengjiang Chang. Terahertz dual-band polarization control and wavefront shaping over freestanding dielectric binary gratings with high efficiency. Optics and Lasers in Engineering 143:106636, 2021.
(15) Jianxin Wang, Xianghui Wang, and Ming Zeng. Broadband transverse displacement sensing of silicon hollow nanodisk under focused radial polarization illumination in the near-infrared region. Chinese Optics Letters,18(6), 063602, 2020.
(16) Zhiyuan Gu, Xianghui Wang, Jianxin wang. Fei Fan, and Shengjiang Chang. Sidelobe suppression and axial resolution enhancement in 4pi microscopy with higher-order radially polarized Laguerre-Gaussian beams using subtractive imaging. Chinese Optics Letters,17(12), 121103, 2019.
(17) Xipu Dong, Jierong Cheng, Fei Fan, Shitong Xu, Xianghui Wang, and Shengjiang Chang. Wideband sub-THz half-wave plate using 3D-printed low-index metagratings with superwavelength lattice. Opt. Express 27, 202, 2019.
(18) Jianping Yu, Sai Chen, Fei Fan, Jierong Cheng, Shitong Xu, Xianghui Wang, and Shengjiang Chang. Tunable terahertz wave-plate based on dual-frequency liquid crystal controlled by alternating electric field. Opt. Express 26, 663-673, 2018.
(19) Si Shen, Xianghui Wang*, Jingwei Sun, Fei Fan, and Shengjiang Chang. Investigation on refractive index sensing of single silver nanoparticle at tightly focused light illumination. Optoelectronics Letters, 13(1): 5-9, 2017.
(20) Xianghui Wang, Si Shen, Jingwei Sun, Fei Fan, and Shengjiang Chang*. Surface and bulk second-harmonic responses from a glass slide using tightly focused radially polarized light. Optics Letters, 41(24): 5652-5655, 2016.
(21) Xianghui Wang, Shima Fardad, Susobhan Das, Alessandro Salandrino, and Rongqing Hui*. Direct observation of bulk second-harmonic generation inside a glass slide with tightly focused optical fields. Physical Review B (Rapid Communication), 93(16): 161109(R), 2016.
(22) Jingwei Sun, Xianghui Wang*, Shengjiang Chang, Ming Zeng, Si Shen, and Na Zhang. Far-field radiation patterns of second harmonic generation from gold nanoparticles under tightly focused illumination, Optics Express, 24(7):7477-7487, 2016.
(23) Sun Jing-wei, Wang Xiang-Hui*, Chang Sheng-jiang, Zeng Ming, Zhang Na. Second harmonic generation of metal nanoparticles under tightly focused illumination, Chinese Physics B, 25(3): 037803, 2016.
(24) Sai Chen, Fei Fan, Shengjiang Chang, Yinping Miao, Meng Chen, Jining Li, Xianghui Wang and Lie Lin. Tunable optical and magneto-optical properties of ferrofluid in the terahertz regime. Optics Express, 22(6):6313-6321, 2014.
(25) Fei Fan, Wei Li, Wenhao Gu, Xianghui Wang and Shengjiang Chang. Cross-shaped metal–semiconductor–metal plasmonic crystal for terahertz modulator. Photonics and Nanostructures -Fundamentals and Applications, 11(1):48-54, 2013.
(26) Ziwei Jiang, Jinjun Bai, Yu Hou, Xianghui Wang and Shengjiang Chang. Terahertz dual air core fiber directional coupler. Acta Physica Sinica, 62(2): 028702-1-6, 2013.
(27) Fei Fan,Wenhao Gu, Xianghui Wang and Shengjiang Chang. Real-time quantitative terahertz microfluidic sensing based on photonic crystal pillar array, Appl. Phys. Lett., 102(12), 121113(1-4),2013.
(28) Fei Fan, Sai Chen, Xianghui Wang and Shengjiang Chang. Tunable nonreciprocal terahertz transmission and enhancement based on metal/magneto-optic plasmonic lens, Opt. Express, 21(7), 8614-8621, 2013.
(29) Fei Fan, Wenhao Gu, Sai Chen, Xianghui Wang and Shengjiang Chang. State conversion based on terahertz plasmonics with vanadium dioxide coating controlled by optical pumping, Opt.Lett. 38(9), 1582-1584, 2013.
(30) Bingzhong Huo, Xianghui Wang*, Shengjiang Chang and Ming Zeng. Second harmonic generation of a single centrosymmetric nanosphere illuminated by tightly focused cylindrical vector beams. J. Opt. Soc. Am. B, 29(7):1631-1640, 2012.
(31) Bingzhong Hou, Xianghui Wang* and Shengjiang Chang. Second harmonic generation of centrosymmetric nanospheres excited by doughnut beams, Optoelectronics Letters, 8(3): 161-164, 2012.
(32) Yu Hou, Fei Fan, XiangHui Wang, GuoHua Zhao and ShengJiang Chang. Terahertz switch and polarization controller based on photonic crystal fiber, SCIENCE CHINA Information Sciences, 55(1):106-113, 2012.
(33) Yu Hou, Fei Fan, Hao Zhang, Xianghui Wang and Shengjiang Chang, Terahertz Single-Polarization Single-Mode Hollow-Core Fiber Based on Index-Matching Coupling, IEEE Photonics Technology Letters, 24(8):637-639, 2012.
(34) Fei Fan, Yu Hou, Ziwei Jiang, Xianghui Wang and Shengjiang Chang. Terahertz modulator based on insulator-metal transition in photonic crystal waveguide, Applied Optics, 51(20): 4589-4596, 2012.
(35) Fei Fan, Shengjiang Chang, Chao Liu, Yu Hou, Xianghui Wang. Magnetically tunable silicon-ferrite photonic crystals for terahertz circulator, Optics Communications, 285(18): 3763- 3769, 2012.
(36) Fei Fan, Shengjiang Chang, Wenhao Gu and Xianghui Wang. Magnetically Tunable Terahertz Isolator Based on Structured Semiconductor Magneto Plasmonics, IEEE Photonics Technology Letters, 24(22), 2080-2083, 2012.
(37) Xianghui Wang*, Shengjiang Chang, Lie Lin, Linrui Wang and Shujuan Hao. Elimination of fluorescence intensity difference in orientation determination of single molecules by highly focused generalized cylindrical vector beams, Optik,122(9):773-776, 2011.
(38) Bingzhong Huo, Xianghui Wang*, Shengjiang Chang, Ming Zeng and Guohua Zhao. Second harmonic generation of individual centrosymmetric sphere excited by a tightly focused beam, J. Opt. Soc. Am. B, 28(11): 2702-2711, 2011.
(39) Fei Fan, Zhan Guo, Jinjun Bai, Xianghui Wang and Shengjiang. Chang. Magnetic photonic crystals for terahertz tunable filter and multifunctional polarization controller, J. Opt. Soc. Am. B, 28(4):697-702, 2011.
(40) Fei Fan,Zhan Guo,Jinjun Bai,Xianghui Wang and Shengjiang Chang. Magnetically tunable magneto-photonic crystals for multifunctional terahertz polarization controller,Acta Physica Sinica, 60(8):084219, 2011.
(41) Jinjun Bai, Changhui Wang, Bingzhong Huo, Xianghui Wang and Shengjiang Chang. A broadband low loss and high birefringence terahertz photonic bandgap photonic crystal fiber,Acta Physica Sinica, 60(9):098702, 2011.
(42) Xianghui Wang*, Shengjiang Chang, Lie Lin, Linrui Wang, Bingzhong Huo and Shujian Hao. Vector model for polarized second harmonic generation microscopy under high numerical aperture, J. Opt. A: Pure Appl. Opt., 12(4):045201, 2010.
(43) Yang Chen, TaiNing Zhang, Peng Guo, Xianghui Wang and Sheng-jiang Chang. Quantitative analysis for nonlinear fluorescent spectra based on edges matching. Science China Technological Sciences, 53(5):1190-1197 , 2010.
(44) Yang Chen, Liping Jia, Taining Zhang, Peng Guo, Xianghui Wang and Shengjiang Chang. A classification method for nonlinear fluorescent spectra based on edges matching. Acta Physica Sinica, 59(1):271-280, 2010.
(45) Wang Xiang-Hui*, Lin Lie, Chang Sheng-Jiang, Zhang Hao, Hao Shu-Juan. Examination of the validity of paraxial approximation in second harmonic generation microscopy under low numerical aperture. Chinese Physics Letters, 2008,25(8):2884-2887.
(46) Wang Xiang-Hui*, Lin Lie, Zhang Yang. Analysis of second-harmonic generation microscopy under refractive index mismatch,Chinese Physics,2007,16(11):3285-3289.
(47) Lie Lin,Xianghui Wang, Zhaoqi Wang,Guoguang Mu. Improvement of Axial Resolution in Confocal Microscopy by a Filter with two Zones Phase-Shifted by π,Chinese Physics Letters, 2003, 20(9):1641-1643.
(48) Lie Lin,Xianghui Wang, Zhaoqi Wang,Guoguang Mu. Binary phase-only pupil filters application to high-aperture confocal microscopy,Optik,2003,114(7):329-332.
讲授课程
本科生课程:数学物理方法;光谱学;光电信息专业实验;基础光学实验
研究生课程:面向光学的机器学习
社会兼职
Optics Express、Optics Letters等期刊审稿人
