Optical squeezing of a mechanical oscillator by dispersive interaction

M. Bhattacharya; P. -L. Giscard; P. Meystre

arXiv:0803.1219·quant-ph·March 11, 2008·1 cites

Optical squeezing of a mechanical oscillator by dispersive interaction

M. Bhattacharya, P. -L. Giscard, P. Meystre

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TL;DR

This paper demonstrates how dispersive coupling in an optical cavity can be used to achieve quantum squeezing of a mechanical oscillator, enhancing control over quantum states of macroscopic objects.

Contribution

It introduces a method for quantum squeezing of a mechanical mirror via dispersive interaction in an optical cavity, a novel approach in optomechanics.

Findings

01

Quantum squeezing of the mechanical mirror is achievable through dispersive coupling.

02

The proposed setup enhances control over quantum states of macroscopic oscillators.

03

Potential applications in quantum information and precision measurement.

Abstract

We consider a small partially reflecting vibrating mirror coupled dispersively to a single optical mode of a high finesse cavity. We show this arrangement can be used to implement quantum squeezing of the mechanically oscillating mirror.

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Taxonomy

TopicsMechanical and Optical Resonators · Photonic and Optical Devices · Advanced Fiber Laser Technologies