Quantum light depolarization: the phase-space perspective

A. B. Klimov; J. L. Romero; L. L. Sanchez-Soto; A. Messina; A.; Napoli

arXiv:0712.0759·quant-ph·July 25, 2008

Quantum light depolarization: the phase-space perspective

A. B. Klimov, J. L. Romero, L. L. Sanchez-Soto, A. Messina, A., Napoli

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TL;DR

This paper presents a phase-space approach to quantum light depolarization, deriving and solving a master equation that models the interaction with a random atomic reservoir, and explores its classical limit.

Contribution

It introduces a novel phase-space framework for quantum light depolarization and derives a master equation from a dispersive atom-field coupling.

Findings

01

Master equation formulated for quantum light depolarization

02

Solution obtained via quasiprobability distribution in phase space

03

Analysis of the quasiclassical limit of the model

Abstract

Quantum light depolarization is handled through a master equation obtained by coupling dispersively the field to a randomly distributed atomic reservoir. This master equation is solved by transforming it into a quasiprobability distribution in phase space and the quasiclassical limit is investigated.

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