Xu Lixin, male, born in 1966, Ph.D., is the Chief Expert of the National Key R&D Program for Laser Display. He is the Deputy Director of Anhui Key Laboratory of Optoelectronic Science and Technology, PI Scientist at the Collaborative Innovation Center for New Display, Deputy Director of the National-Local Joint Engineering Laboratory for Polymer Optical Fiber Preparation and Application, Executive Director of the Optomechanical System and Integration Branch of the China Instrument and Control Society, and Director of the Optoelectronics Professional Committee of the Anhui Optical Society. He received his Ph.D. from the University of Science and Technology of China (USTC) in January 2001 and began teaching at the Department of Physics at USTC in February 2001. From February 2002 to January 2005, he was a Research Fellow at the Faculty of Engineering of the Hong Kong Polytechnic University. He returned to teach at USTC in 2005. In recent years, he has primarily focused on research related to laser display and fiber lasers, undertaking projects such as the National Key R&D Program, 863 Program, projects of National Natural Science Foundation of China, and major scientific and technological projects of Anhui Province. He has published over 80 articles in journals such as PRApplied, APL, OL, and OE, and holds more than 20 invention patents. He has made significant research achievements in key technologies for wide-color gamut HD laser display systems, such as light source module technology, high-efficiency optical engine architecture, color mapping relations and implementation technology, and laser speckle theory and suppression technology. He has also made important progress in high-power cylindrical vector fiber lasers, ultrafast fiber lasers, and their applications.
Research Directions
· Laser Display
· Fiber Lasers
Admissions Information
Applicants are required to have a solid understanding of laser principles, fiber optics, and basic knowledge of fiber lasers.
Papers and Monographs
1) Color-speckle assessment in multi-primary laser-projection systems based on a 3D Jzazbz color space - Color-speckle assessment in multi-primary laser-projection systems based on a 3D Jzazbz color space - 2022
2) Upper limit of gamut volumes in multi-primary display systems - Upper limit of gamut volumes in multi-primary display systems - 2022
3) General solution to the calculation of peak luminance of primaries in multi-primary display - General solution to the calculation of peak luminance of primaries in multi-primary display - 2022
4) Resolution-preserving passive 2D/3D convertible display based on holographic optical elements - Resolution-preserving passive 2D/3D convertible display based on holographic optical elements - 2022
5) Color Vision Improvement of Anomalous Trichromats Based on a Wide-Color-Gamut Display - Color Vision Improvement of Anomalous Trichromats Based on a Wide-Color-Gamut Display - 2022
6) Large-field color vision in anomalous trichromats based on a trichromatic display - Large-field color vision in anomalous trichromats based on a trichromatic display - 2022
7) Bidirectional mode-locked fiber laser based on nonlinear multimode interference - Bidirectional mode-locked fiber laser based on nonlinear multimode interference - 2022
8) Evaluation of gamut enhancement in yellow regions and a choice of optimal wavelength for a RGBY four-primary laser display system - Evaluation of gamut enhancement in yellow regions and a choice of optimal wavelength for a RGBY four-primary laser display system - 2022
9) Self-starting high-order mode oscillation fiber laser - Self-starting high-order mode oscillation fiber laser - 2022
10) Color speckle assessment for laser projection systems based on human speckle perception - Color speckle assessment for laser projection systems based on human speckle perception - 2022
Affiliation: School of Physical Sciences
Address: 96 Jinzhai Road, Hefei, 230026, China
Phone: +86-551-3600949
Personal Homepage: http://dslx.ustc.edu.cn/?menu=expert_paper&expertid=1315