Curriculum Vitae
Prof. SHI Yi-Wei
Biography
Yi-Wei Shi graduated from Tianjin University, China, in Electronic Engineering in 1985. He received his MS and PhD in fiber optic communication and sensing from China University of Mining and Technology in 1988 and 1991, respectively. He was appointed lecturer at the same university in 1991. From 1996 to 2006, he joined Tohoku University, Sendai, Japan, where he was engaged in research on IR hollow waveguide. He became an associate professor at Tohoku University in 2002. Since 2006, he has been a professor in the School of Information Science and Engineering, Fudan University. He is currently a vice dean of the School. He has published more than 150 journal and conference papers on optical waveguides and their application in medical, industrial, and environmental monitoring systems.
Research fields
Optical waveguides for laser power delivery in the wavelength region from the ultraviolet to the mid-, and far-infrared; Laser light transmission system and their applications in medical, industrial and environmental monitoring system; Hollow-core waveguides for extreme wavelengths (X-ray and terahertz wave); Infrared imagine transmission.
Selected Publications
1. C. H. Yang, H. Hua, W. Tan, K. Iwai, M. Miyagi, N. Chi and Y. W. Shi*, "Loss spectrum measurement for infrared hollow fiber based on the Fourier transform infrared spectrometer," Appl. Opt. 49, 2504-2509 (2010).
2. X. Lin, Y. W. Shi*, K. R. Sui, X. S. Zhu, K. Iwai, and M. Miyagi, “Fabrication and characterization of infrared hollow fiber with multi- SiO2 and AgI inner-coating layers,” Appl. Opt. 48, 6765-6769 (2009).
3. K. Iwai, A. Hongo, H. Takaku, M. Miyagi, J. Ishiyama, X. X. Wu, Y. W. Shi*, and Y. Matsuura, “Fabrication and transmission characteristics of infrared hollow fiber based on silver-clad stainless steel pipes, ” Appl. Opt., 48, 6207-6212 (2009).
4. X. L. Tang, Y. W. Shi*, Y. Matsuura, K. Iwai, and M. Miyagi, “Transmission characteristics of Terahertz hollow fiber with an absorptive dielectric inner-coating film, ” Opt. Lett., 34, 2231-2233 (2009).
5. Y. W. Shi*, X. S. Zhu, Y. Matsuura, M. Miyagi, “Flexible bundled hollow fiber used in the transmission of thermal infrared image,” JOURNAL OF INFRARED AND MILLIMETER WAVES 27(1) 12-15 (2008).
6. K. R. Sui, Y. W. Shi*, X. L. Tang, X. S. Zhu, K. Iwai, and M. Miyagi, "Optical properties of AgI/Ag infrared hollow fiber in the visible wavelength region," Opt. Lett., 33, 318-320 (2008).
7. K. R. Sui, X. S. Zhu, X. L. Tang, K. Iwai, M. Miyagi, and Y. W. Shi, "Method for evaluating material dispersion of dielectric film in the hollow fiber," Appl. Opt., 47, 6340-6344 (2008).
8. K. Iwai, M. Miyagi, Y. W. Shi*, X. S. Zhu, and Y. Matsuura, "Infrared hollow fiber with a vitreous film as the dielectric inner coating layer," Opt. Lett., 32, 3420-3422 (2007).
9. H. Jelinkova, T. Dostalova, M. Nemec, P. Koranda, M. Miyagi, K. Iwai, Y. W. Shi, and Y. Matsuura, “Free-running and Q-switched Er:YAG laser dental cavity and composite resin restoration,” Laser Phy. Lett., 4, 835–839 (2007).
10. Y. W. Shi*, K. Ito, L. Ma, T. Yoshida, Y. Matsuura, and M. Miyagi, “Fabrication of a polymer-coated silver hollow optical fiber with high performance,” Appl. Opt., 45, 6736-3670 (2006).
11. Y. W. Shi*, K. Iwai, Y. Matsuura, M. Miyagi, and H. Jelinkova, “Self-cleaning effect of sealing caps for infrared hollow fiber delivering pulsed Er:YAG laser light,” Opt. & Laser Tech., 38, 107-110 (2006).
12. Y. W. Shi*, K. Ito, Y. Matsuura, and M. Miyagi, “Multiwavelength laser light transmission of hollow optical fiber from the visible to the mid-infrared,” Opt. Lett., 30, 2867-2869 (2005).
Research Interests
mid- and far-infrared waveguide
THz waveguide
spectrascopic sensing
laser power delivery
laser diagnose and treatment
Teaching
optical fiber communication (undergraduate)
optical transmission (master student)
optical fiber transmission and sensing (Doctor student)
Publications
Copyrights 2017 © The School of Information Science and Technology, Fudan University