Semiconductor UV lasers and LEDs
III-nitride semiconductor visible lasers and LEDs have demonstrated enormous success in solid state lighting and display, which has been recognized by the Nobel Prize in Physics. They are ubiquitous with wall-plug efficiency close to 90%. However, III-nitride semiconductor UV lasers and LEDs still suffer much lower efficiency due to multi-faceted challenges, hindering them from being deployed in critical areas including water purification, curing, and communication. This seminar elaborates the research progress made by Advanced Semiconductor Laboratory at KAUST to improve the performance of the UV lasers and LEDs, including epitaxy, physics, and devices. Also, the seminar would cover the first deep UV lasing from GaN quantum wells and the first III-nitride design software based on machine learning.
Date and Time
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- 154 Summit Street, Newark, NJ 07102
- Newark, New Jersey
- United States 07102
- Building: ECEC
- Room Number: 202
- Click here for Map
- Contact Event Host
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Ajay K. Poddar, Ph.: 201-560-3806, email:akpoddar@ieee.org
Durga Misra, +1-973-596-5739, email: dmisra@ieee.org
Edip Niver, email: edip.niver@njit.edu
Anisha Apte, email: anisha_apte@ieee.org
- Co-sponsored by AP/MTT17, ED/CAS, Photonics
- Starts 28 August 2019 02:00 PM UTC
- Ends 25 September 2019 04:00 PM UTC
- No Admission Charge
Speakers
Dr. Xiaohang Li of KAUST, Saudi Arabia
Semiconductor UV lasers and LEDs
III-nitride semiconductor visible lasers and LEDs have demonstrated enormous success in solid state lighting and display, which has been recognized by the Nobel Prize in Physics. They are ubiquitous with wall-plug efficiency close to 90%. However, III-nitride semiconductor UV lasers and LEDs still suffer much lower efficiency due to multi-faceted challenges, hindering them from being deployed in critical areas including water purification, curing, and communication. This seminar elaborates the research progress made by Advanced Semiconductor Laboratory at KAUST to improve the performance of the UV lasers and LEDs, including epitaxy, physics, and devices. Also, the seminar would cover the first deep UV lasing from GaN quantum wells and the first III-nitride design software based on machine learning.
Biography:
Xiaohang Li is an Assistant Professor at KAUST and the founder of Polarization Toolbox. Prior to joining KAUST, he received B.S., M.S., and Ph.D. degrees from Huazhong University of Science and Technology, Lehigh University, and Georgia Institute of Technology, respectively. He is the recipient of the Harold M. Manasevit Young Investigator Award from the American Association for Crystal Growth, the SPIE D. J. Lovell Scholarship, the Edison Prize from the Edison Innovation Foundation, and the IEEE Photonics Graduate Student Fellowship. He is also an Associate Editor of the OSA Photonics Research.
Email:
Address:Advanced Semiconductor Laboratory, King Abdullah University of Science and Technology, Thuwal, Saudi Arabia, 23955-6900
Agenda
4:30 PM - Refreshments (Pizza) and Networking
5:00-6:00 PM: Talk by Dr. Xiaohang Li, Advanced Semiconductor Laboratory, KAUST, Saudi Arabia
You do not have to be an IEEE Member to attend. Refreshmen is free for all attendess. Please invite your friends and colleagues to take advantages of this Lecture.
Co-sponsor by MTT/AP, ED/CAS and Photonics Chapters