An indirect measurement protocol of intracavity mode quadratures   dispersion in Dynamical Casimir Effect

Alexander Trifanov; Ekaterina Trifanova; George Miroshnichenko

arXiv:1501.02951·quant-ph·January 14, 2015

An indirect measurement protocol of intracavity mode quadratures dispersion in Dynamical Casimir Effect

Alexander Trifanov, Ekaterina Trifanova, George Miroshnichenko

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TL;DR

This paper proposes an indirect measurement protocol to assess the quadrature dispersion of intracavity fields generated by the Dynamical Casimir Effect, aiming to confirm their nonthermal quantum properties.

Contribution

It introduces a novel indirect measurement method for intracavity quadrature dispersion in the context of the Dynamical Casimir Effect, enhancing detection capabilities.

Findings

01

Protocol enables measurement of nonthermal properties

02

Improves detection of intracavity quantum states

03

Facilitates experimental verification of quantum effects

Abstract

This work deals with the problem of photon detection generated from the mirror-induced Dynamical Casimir Effect. Particularly we are interested in measurement of those statistical characteristics of a generated intracavity field which may confirm its nonthermal properties. Here an indirect protocol for quadrature dispersion measurement is presented.

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Taxonomy

TopicsQuantum Electrodynamics and Casimir Effect · Mechanical and Optical Resonators · Quantum Mechanics and Applications