报告题目：Single-nanoparticle detection using high-Q optical microcavities

报告人：肖云峰教授北京大学物理学院

报告时间：2016年11月12日上午9点

报告地点：物理科技楼105室

报告摘要：Single nanoparticle detection is of critical importance in many applications. Optical microcavities featuring high-Q factors and small mode volumes have been widely investigated in sensing applications. In general, the microcavity sensing depends mainly on reactive (i.e., dispersive) interactions, resulting in a resonance wavelength shift or mode splitting, which essentially responds to the real part of the polarizability of the targets. In the first part of this talk, we report the experimental demonstration of single nanoparticle detection using either resonance mode broadening or microcavity Raman laser splitting. In the second part, a dissipative sensing method is demonstrated to detect single lossy nanoparticles. This dissipative sensing method holds great potential in detecting nanoparticles of high absorption or ultralow polarizabilities, such as carbon nanotubes and metal nanoparticles, and in characterizing nanoparticle properties in combination with the reactive sensing method.

报告人简介：Dr. Yun-Feng Xiao received the B.S. and Ph.D. degrees in physics from University  of Science and Technology of China in 2002 and 2007, respectively. After a postdoctoral research at WashingtonUniversity in St. Louis, he joined the faculty of PekingUniversity in 2009, and was promoted a tenured professor with in 2014. During the past few years, he was awarded the Excellent Young Scientist by National Natural Science Foundation of China (NSFC) in 2012, The Rao Yutai First Prize in Fundamental Optics in 2013. His research interests lie in the fields of whispering-gallery microcavity optics and photonics. He has authored or co-authored more than 100 refereed journal papers with over 2000 citations, and has delivered over 60 invited talks/seminars in international/national conferences.