光机械增强的双共振二维光学非线性。

Optomechanical Enhancement of Doubly Resonant 2D Optical Nonlinearity.

机构信息

Department of Nanoengineering and ‡Department of Electrical and Computer Engineering, University of California, San Diego , La Jolla, California 92093, United States.

Department of Materials Science and Engineering, ∥Department of Physics and Astronomy, University of Pennsylvania , Philadelphia, Pennsylvania 19104, United States.

出版信息

Nano Lett. 2016 Mar 9;16(3):1631-6. doi: 10.1021/acs.nanolett.5b04448. Epub 2016 Feb 15.

DOI:10.1021/acs.nanolett.5b04448

PMID:26854706

Abstract

Emerging two-dimensional semiconductor materials possess a giant second order nonlinear response due to excitonic effects while the monolayer thickness of such active materials limits their use in practical nonlinear devices. Here, we report 3300 times optomechanical enhancement of second harmonic generation from a MoS2 monolayer in a doubly resonant on-chip optical cavity. We achieve this by engineering the nonlinear light-matter interaction in a microelectro-mechanical system enabled optical frequency doubling device based on an electrostatically tunable Fabry-Perot microresonator. Our versatile optomechanical approach will pave the way for next generation efficient on-chip tunable light sources, sensors, and systems based on molecularly thin materials.

摘要

新兴的二维半导体材料由于激子效应而具有巨大的二阶非线性响应，而这种活性材料的单层厚度限制了它们在实际非线性器件中的应用。在这里，我们报告了在双共振片上光学腔内的 MoS2 单层中二次谐波产生的 3300 倍的光机械增强。我们通过在基于静电可调谐 Fabry-Perot 微谐振器的微机电系统中实现非线性光物质相互作用来实现这一目标。我们灵活的光机械方法将为下一代基于分子薄材料的高效片上可调谐光源、传感器和系统铺平道路。

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光机械增强的双共振二维光学非线性。

Optomechanical Enhancement of Doubly Resonant 2D Optical Nonlinearity.

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