摘要
Strong light scattering can make even an optically non-absorbing object opaque preventing deep light penetration. Many far-reaching applications, such as deep brain imaging could benefit from a better coupling of light into scattering medium and increased penetration depth resulting into greater transmission through a highly scattering medium. In this talk I will present a simple, but efficient way of increasing light coupling through optical interface engineering. Capitalizing on our prior work [1-6], we provide a theoretical foundation for our experimental findings and discuss potential applications for imaging and sensing [7-8].
References:
[1] B. H. Hokr et al, Opt. Express 21(10), 11757-11762 (2013).
[2] B. H. Hokr, et al, Nat. Commun. 5, 4356 (2014).
[3] B. H. Hokr, et al, Proc. Natnl. Acad. Sci. USA 111(34), 12320-12324 (2014)
[4] B. H. Hork, et al, Opt. Express 23(7), 8699-8705 (2015).
[5] J. V. Thompson, et al, J. Mod. Opt. 63(1), 80-84 (2016).
[6] J. V. Thompson, et al, Opt. Lett. 41(8), 1769-1772 (2016).
[7] J. V. Thompson, et al, Proc. Natnl. Acad. Sci. USA 114 (30), 7941-7946 (2017).
[8] J. V. Thompson, et al, ACS Photonics 4 (7), 1790-1796 (2017).
报告人简介
Dr. Vladislav V. Yakovlev is a full professor in the Departments of Biomedical Engineering, Electrical and Computer Engineering and Physics & Astronomy at Texas A&M University. He got his PhD in 1990 from Moscow State University. After a short stay with Novatec Laser System, Inc., where he discovered what is now known as bladeless LASIK, he worked in the Department of Chemistry and Biochemistry at UCSD as a postdoctoral researcher and research scientist developing new tools for optical molecular spectroscopy, imaging and control. Dr. Yakovlev started as an assistant professor at the University of Wisconsin – Milwaukee in 1998 and moved to Texas A&M University in 2011. He has more than 150 research publications in leading scientific journals. His research was supported by NSF, NIH, ARO, AFOSR, ONR, and DARPA. Dr. Yakovlev is a Fellow of OSA, AIMBE, APS and SPIE. He is a member of Editorial Board of Journal of Biomedical Optics, Optica and Applied Sciences. His research interests are in a broad area of optical spectroscopy, microscopy, imaging and sensing.
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