Laboratory of Infrared Material and Devices

Xunsi Wang (王训四)

Professor
Laboratory of Infrared Materials and Devices; 
Advanced Technology Research Institute, Ningbo University; 
Ningbo City, 315211, China; 
Tel:+86-574-87600947,
Email: xunsiwang@siom.ac.cn
          wangxunsi@nbu.edu.cn                                               
 

Education

PhD, Optics Engineer, Shanghai Institute of optics and Fine Mechanics, CAS, China, 2007
Master, Precise Instrument, Hefei University of Technology, China, 2004
BSc, Measurement and Control Technology, Hefei University of Technology, China, 2001
 

Work Experiences

2015–Present, Professor, Advanced Technology Research Institute, Ningbo University, China
2007-2014, Lecturer, Associate Professor, Information College, Ningbo University, China                               
2012-2013, Visiting Scholar, CREOL, Center Florida University, USA    
 

Research Interests

Fiber communication, IR optics, Chalcogenide glass
 

Publications

[1] Zhao Zheming, Wu Bo, Wang Xunsi#, Pan Zhanghao, Liu Zijun, Zhang Peiqing, Shen Xiang, Nie Qiuhua, Dai Shixun, Wang Rongping. Mid-infrared supercontinuum covering 2.0–16 μm in a low-loss telluride single-mode fiber. Laser & Photonics Reviews. 2017, 11(2): 1700005.
[2] Xue Z., Liu S., Zhao Z., Mi N., Wu B., Li X., Zhang P., Wang X#. Infrared Suspended-Core Fiber Fabrication Based on Stacked Chalcogenide Glass Extrusion. Journal of Lightwave Technology. 2018, 36(12): 2416-2421.
[3] Si N. A., Sun L. H., Zhao Z. M., Wang X. S. #, Zhu Q. D., Zhang P. Q., Liu S., Pan Z. H., Liu Z. J., Dai S. X. , Nie Q. H. Supercontinuum generation and analysis in extruded suspended-core As2S3 chalcogenide fibers. Applied Physics a-Materials Science & Processing. 2018, 124(2): 171
[4] Jiang Ling, Wang Xunsi#, Guo Fangxia, Wu Bo, Zhao Zheming, Mi Nan, Li Xing, Dai Shixun, Liu Zijun, Nie Qiuhua, Wang Rongping. Fabrication and characterization of chalcogenide polarization-maintaining fibers based on extrusion. Optical Fiber Technology. 2017, 39: 26-31.
[5] Mi Nan, Wu Bo, Jiang Ling, Sun Lihong, Zhao Zheming, Wang Xunsi#, Zhang Peiqing, Pan Zhanghao, Liu Zijun, Dai Shixun, Nie Qiuhua. Structure design and numerical evaluation of highly nonlinear suspended-core chalcogenide fibers. Journal of Non-Crystalline Solids. 2017, 464: 44-50.
[6] Zhao Zheming, Wang Xunsi#, Dai Shixun, Pan Zhanghao, Liu Shuo, Sun Lihong, Zhang Peiqing, Liu Zijun, Nie Qiuhua, Shen Xiang, Wang Rongping. 1.5-14 µm midinfrared supercontinuum generation in a low-loss Te-based chalcogenide step-index fiber. Optics Letters. 2016, 41(22): 5222-5225.
[7] Jiang Chen, Wang Xunsi#, Zhu Minming, Xu Huijuan, Nie Qiuhua, Dai Shixun, Tao Guangming, Shen Xiang, Cheng Ci , Zhu Qingde. Preparation of chalcogenide glass fiber using an improved extrusion method. Optical Engineering. 2016, 55(5): 056114-056114.
[8] Zhu, Minming, Wang, Xunsi#, et al.. Fabrication of an IR hollow-core Bragg fiber based on chalcogenide glass extrusion. Applied Physics a-Materials Science & Processing. 2015, 119(2): 455.
[9] Sun Lihong, Chen Feifei, Xu Yinsheng, Huang Yicong, Liu Shuo, Zhao Zheming, Wang Xunsi#, Zhang Peiqing, Dai Shixun, Zhang Xianghua. Investigation of the third-order nonlinear property of Ge–Se–Te glasses at mid-infrared. Applied Physics a-Materials Science & Processing. 2016, 122(9): 816.
[10] Cheng Ci, Wang Xunsi#, Xu Tiefeng, Sun Lihong, Pan Zhanghao, Liu Shuo, Zhu Qingde, Liao Fangxing, Nie Qiuhua, Dai Shixun. Optical properties of Ag-and AgI-doped Ge–Ga–Te far-infrared chalcogenide glasses. Infrared Physics & Technology. 2016, 76: 698-703.
[11] Cheng Ci, Wang Xunsi#, Xu Tiefeng, Zhu Qingde, Sun Lihong, Pan Zhanghao, Nie Qiuhua, Zhang Peiqing, Wu Yuehao, Dai Shixun. Novel Ge–Ga–Te–CsBr glass system with ultrahigh resolvability of halide. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2015, 150: 737-741.
[12] Wang Xunsi#, Nie Qiuhua, Wang Guoxiang, Sun Jie, Song Baoan, Dai Shixun, Zhang Xianghua, Bureau Bruno, Boussard Catherine, Conseil Clément, Ma Hongli. Investigations of Ge–Te–AgI chalcogenide glass for far-infrared application. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2012, 86: 586-589.