Professor Wang Tingyun，Ph.D

Office：
910 Xingjian Building, Yanchang Campus, Shanghai University

Mail Address：
160 Box, 149 Yanchang Rd, Shanghai 200072, People’s Republic of China

Zip Code：
200072

Phone：
86-（L）

Email：
tywang@mail.shu.edu.cn

中文版
URL：
https://scie.shu.edu.cn/Prof/wty.htm


Education and Professional Experiences:
2001-present Professor, School of Communication and Information Engineering, Shanghai University
Director, Shanghai Key Lab. of Specialty Fiber Optics and Optical Access Network (Shanghai University)
2009 Senior Visiting Scholar，Electrical and Computer Engineering，Virginia Polytechnic Institute and State University
1998-2000 Postdoctoral researcher in Tsinghua University
1998 Ph.D in Measurement Technology and Instrumentation, Harbin Institute of Technology

Research Interest:
Specialty fiber Optics
Fiber optic sensors
Optical communication
Photo-electric signal processing

Academic Accomplishments:
Major research interests are special fiber optics fabrication, optical interconnection and fiber optic sensors. The projects in UV fibers, amplified fiber, nano-doped optical fiber, fiber optic temperature sensor, and opto-elecronic signal processing have been finished. Has undertaken more than 30 teaching research programs, including the national 973 plan, Key projects of National Natural Foundation, Key projects of international cooperation and exchange, Key projects of Shanghai and cooperation projects with enterprises, etc. More than 100technical research papers had been published on SCI, and two books was published, one of which collaborated with others. Besides that, more than 30patents were authorized.

Other Professional Activities:
Senior member of The Chinese Optical Association
Member of Optical Society of America (OSA)
Editor of Journal of Applied Sciences
Editor of Journal of Opto-electronics·Laser (in Chinese)
Editor of Opto-electronics Letters
Editor of Chinese Laser (in Chinese)
Vice chairman of optical fiber sensing technology expert committee of Chinese Society for Optical Engineering
Vice chairman of China optical fiber sensing technology and industry innovation alliance
Director of Shanghai institute of communication
Senior member of Shanghai Society of Inertial Technology
Reviewer of international journals such as Optics Letters, Optics Express, Journal of Lightwave Technology, IEEE Photonics Technology Letters, Journal of the Optical Society of America A, Applied Optics, Optics Communications, Optical Engineering, et al.

Awards:
1. 2016 Shanghai leading talent
2. 2016 Wang Kuancheng Yucai Award.
3. 2013 Moving optical communication technology based on special optical fiber and its application in complex environment, Third Grade Prize for technology invention award of Shanghai municipality.
4. The Sixth Batch of professional and technical talents of Baoshan District.
5. 2008 Key technologies of wireless optical communication in automatic port, Project supported by Shanghai talent development funding.
6. 1999 Dynamic characteristic test of ultra-high speed analog to digital converter and theoretical research of alternating A/D sampling, Second Grade Prize for Science and Technology Progress Award of National Education Ministry.

Teaching:
1．Light and the internet of things (undergraduates)
2．Foundations of photonics (undergraduates)
3．Optical waveguide theory and technology (postgraduates)

Postgraduate students recruitment:
Students with professional background with optoelectronics, photonics and photonic technology, optical communication and optical sensing, optical physics, optical engineering, communication are welcome to apply for master's and doctoral courses.

Post-doctoral recruit:
Excellent doctor with background in optoelectronics, photonics and photonic technology, optical communication and optical sensing, optical physics, optical engineering, communication are welcome to join.

Published Book:
1. TingyunWang. Special optical fiber and optical fiber communication. Shanghai Scientific and Technical Publishers, 2016.01
2. Shenghe Sun, Tingyun Wang, Ying Xu. Optical fiber measurement and sensor technology. Harbin Institute of Technology Press, 2000.1

Grants:
1. NSFC Projects of International Cooperation and Exchanges,“Research on bismuth/erbium/ytterbium-codoped silica fiber with ultra-wideband spectrum()”, 2016.01-2020.12, PI
2. Instrument Special fund for National Natural Science Foundation of China, “Crystal semiconductor core optical fiber laser wire drawing instrument(**)”, 2013.01-2016.12, PI
3. The General Program of National Natural Science Foundation of China, “Research on high Verdet constant lead oxide nano doped silica fiber under the radiation(**)”,2015.01-2018.12, PI
4. The Key Project for National Natural Science Foundation of China, “Key fabrication technology for nano-semiconductor doped amplification fiber (**)”, 2010.01-2013.12, PI
5. 973 Program (sub project), “Research on quartz doped scintillation optical fiber mechanism and radio active perception network(2012CB723405)”, 2011.12-2014.12, PI
6. National Natural Science Foundation of China, “The radiation properties and fabrication technology of radiation-resistant fiber (**)”, 2006.1-2008.12, PI
7. National Natural Science Foundation of China, “The mechanism of semiconductor film inner-cladding fiber and its transmission characteristics (**)”, 2005.1-2007.12, PI
8. Universities Foster Innovation Fund Projects for Major Projects in Ministry of Education, “Fiber optic F-P micro-cavity sensors and their sensing networks (708041)”, 2008.10-2010.09, PI
9. Key Project of Shanghai Science and Technology Committee, “High speed optical back board interconnect technology and Optical communication function demonstration prototype (**)”, 2016.06-2018.06, PI
10. Key Project of Shanghai Science and Technology Committee, “Research on high speed and long distance optical printing back board interconnection technology (**)”, 2013.09-2015.07, PI
11. Key Project of Shanghai Science and Technology Committee, “Key technologies of broadband optical interconnection of printed circuit board()”, 2010.07-2012.07, PI

12. Nano projectofShanghai Science and Technology Committee,“Quantum dot doped functional material with high sensitivity humidity/temperature optical fiber sensing technology(09nm**)”, 2009.07-2011.06, PI
13. Cooperative project with Zhongxing Telecommunication Equipment Corporation, “Research on the technology of optical fiber coupled printed circuit board based on broadband optical interconnection communication system”, 2014.10-2015.10, PI
14. Cooperative project with CNPC Greatwall drilling company, “Optical fiber natural gamma sensor”, 2014.12-2015.12, PI
15. NSFC Projects of International Cooperation and Exchanges, “Asia Communications and Photonics Conference”, 2011.09-2012.01, PI

Selected Publications:
1. Tingyun Wang, Jianchong Yin, Zhongyin Xiao, Wenyun Luo, and Jianxiang Wen. Influence of Irradiation and Annealing on Structural Properties of the Optical Fiber Cladding Material. IEEE Transactions on Nuclear Science,2012,59(6):3244-3248.
2. Tingyun Wang, Xianglong Zeng, Jianxiang Wen, Fufei Pang and Zhenyi Chen. Characteristics of Photoluminescence and Raman spectra of InP doped silica fibre. Applied Surface Science, 2009, 255: 7791-7793.
3. Tingyun Wang, Zhongyin Xiao, Wenyun Luo. Influences of Thermal Annealing Temperatures on Irradiation Induced Centers in Silica Glass. IEEE Transaction on Nuclear Science, 2008, 55(5): 2685-2688.
4. Jianxing Wen, Renxiang Gong, Zhongyin Xiao, Wenyun Luo, Wenkai Wu, Yanhua Luo, Gang-ding Peng, Fufei Pang, Zhenyi Chen, Tingyun Wang*. Effects of quenching, irradiation, and annealing processes on the radiation hardness of silica fiber cladding materials(I). Optical Fiber Technology, 2016,30:95-99.
5. Yi Huang, Huangchao Chen, Weilong Dong, Fufei Pang, Jianxiang Wen, Zhenyi Chen, and Tingyun Wang*. Fabrication of europium-doped silica optical fiber with high Verdet constant. Optics Express, 2016, 24(16): 18709-18717.
6. YanhuaDong, JianxiangWen, FufeiPang, YanhuaLuo, Gang-dingPeng, Zhenyi Chen, and TingyunWang*. Formation and photoluminescence property of PbS quantum dots in silica optical fiber based on atomic layer deposition. Optical Materials Express, 2015, 5(4): 712-719.
7. JianxiangWen, JieWang, YanhuaDong, YanhuaLuo, Gang-dingPeng, NaChen, FufeiPang, ZhenyiChen, and TingyunWang*. Radiation-induced photoluminescence enhancement of Bi/Al-codoped silica optical fibers via atomic layer deposition. Optics Express, 2015, 23(22): 29004-29013.

8. JianxiangWen, Wenjun Liu, Yi Huang, Yuchen Liu, YanhuaLuo,Gang-dingPeng, FufeiPang, ZhenyiChen, and TingyunWang*.Spun related effects on optical properties of spun silica optical fibers. Journal of Lightwave Technology, 2015,33(12):2674-2678.
9. JianxiangWen, JieWang, YanhuaDong, YanhuaLuo,Gang-dingPeng, FufeiPang, ZhenyiChen, and TingyunWang*. Photoluminescence properties of Bi/Al-codoped silica optical fiber based on atomic layer deposition method. Applied Surface Science,2015,349: 287-291. (II Zone, IF: 2.711, SCI:041, EI:20**7).
10. YanhuaDong, JianxiangWen, FufeiPang, YanhuaLuo, Gang-dingPeng, Zhenyi Chen, and TingyunWang*. Optical properties of PbS-doped silica optical fiber materials based on atomic layer deposition. Applied Surface Science, 2014, 320: 372-378.
11. WenyuanWang, DingDing, NaChen, FufeiPang, and TingyunWang*.Quasi-Distributed IFPI Sensing System Demultiplexed With FFT-Based Wavelength Tracking Method. IEEE Sensors Journal,2012,12(9):2875-2880.
12. Jiangxiang Wen, Gang-ding Peng, Wenyun Luo, Zhongyin Xiao, Zhenyi Chen, and Tingyun Wang*. Gamma irradiation effect on Rayleigh scattering in low water peak single-mode optical fibers. Optics Express,2011,19(23):23271-8.