光学微腔辐射压力诱导机械振荡的分析

Analysis of radiation-pressure induced mechanical oscillation of an optical microcavity.

作者信息

Kippenberg T J, Rokhsari H, Carmon T, Scherer A, Vahala K J

机构信息

Thomas J. Watson Laboratory of Applied Physics, California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Phys Rev Lett. 2005 Jul 15;95(3):033901. doi: 10.1103/PhysRevLett.95.033901. Epub 2005 Jul 12.

DOI:10.1103/PhysRevLett.95.033901

PMID:16090743

Abstract

The theoretical work of Braginsky predicted that radiation pressure can couple the mechanical, mirror eigenmodes of a Fabry-Pérot resonator to its optical modes, leading to a parametric oscillation instability. This regime is characterized by regenerative mechanical oscillation of the mechanical mirror eigenmodes. We have recently observed the excitation of mechanical modes in an ultrahigh Q optical microcavity. Here, we present a detailed experimental analysis of this effect and demonstrate that radiation pressure is the excitation mechanism of the observed mechanical oscillations.

摘要

布拉金斯基的理论工作预测，辐射压力可将法布里-珀罗谐振器的机械镜本征模与其光学模耦合，导致参量振荡不稳定性。这种状态的特征是机械镜本征模的再生机械振荡。我们最近在一个超高Q值光学微腔中观测到了机械模的激发。在此，我们给出了对这种效应的详细实验分析，并证明辐射压力是所观测到的机械振荡的激发机制。

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光学微腔辐射压力诱导机械振荡的分析

Analysis of radiation-pressure induced mechanical oscillation of an optical microcavity.

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