4.2 Article

Dynamical approach to quantum optomechanics: Motivation, method, and applications

Journal

FUNDAMENTAL RESEARCH
Volume 3, Issue 1, Pages 87-89

Publisher

KEAI PUBLISHING LTD
DOI: 10.1016/j.fmre.2022.11.002

Keywords

Cavity optomechanical systems; Dynamical evolution; Thermal state; Optomechanical cooling; Entanglement

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This article presents a method for dealing with the quantum dynamics of optomechanical systems, which focuses on the dynamical evolution processes rather than the steady states. The method effectively captures the features of optomechanical cooling, entanglement, and other scenarios.
We present an overall summary on a method to deal with quantum dynamics of optomechanical systems. The method is based on the dynamical evolution processes instead of the finally evolved steady states, which are a prerequisite to the standard approach, and well captures the features in optomechanical cooling, entanglement and other scenarios.

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