摘要

In this talk, I will discuss our recent progress in exploring quantum nonlinear optical and optomechanical phenomena in micro-/nano-photonic devices, with a focus on cavity nano-optomechanics and its application. Optical control of mechanical motion in resonant photonic structures currently attracts significant interest due to its intriguing capability of manipulating photon-phonon interaction.  After a brief introduction to the basic principles of the design and fabrication of optomechanical devices in mainstream semiconductor materials, I will give an overview of the current state of research frontiers on nano-optomechanics, then I will move on to discuss our recent effort on developing different micro-/nano-optomechanical structures on new platforms, on exploring new optomechanical phenomena and physics, and on applying cavity-optomechanical effects for applications in metrology, sensing, and photonic signal processing. 

报告人简介

Qiang Lin is an assistant professor of Electrical Engineering and Optics at the University of Rochester.  His current research focuses primarily on integrated quantum photonics, nano-optomechanics, and nonlinear nanophotonics. He has published 54 peer-reviewed papers, resulting in an H-Index of 24 and total citations more than 1800 (according to Web of Science), and H-Index of 28 and total citations more than 2800 (according to Google Scholar). Among other accomplishments, Dr. Lin has pioneered in nonlinear silicon photonics and gradient-force based nano-optomechanics. Prior to joining University of Rochester in 2011, he was a postdoctoral scholar at Caltech from 2007 to 2010.  He received his Ph.D. from the Institute of Optics at the University of Rochester in 2006, prior to which he obtained his B.S. and M.S. in Applied Physics from Tsinghua University, China, in 1996 and 1999, respectively. 

Host: Yuping Chen ypchen@sjtu.edu.cn

Contact: Yang Yang catherinecherry@sjtu.edu.cn