Temperature Dependence of Violation of Bell's Inequality in Coupled   Quantum Dots in a Microcavity

Cheng-Ran Du; Ka-Di Zhu

arXiv:0705.3145·cond-mat.mes-hall·July 29, 2010

Temperature Dependence of Violation of Bell's Inequality in Coupled Quantum Dots in a Microcavity

Cheng-Ran Du, Ka-Di Zhu

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TL;DR

This paper investigates how environmental temperature influences the violation of Bell's inequality in coupled quantum dots within a microcavity, considering interactions like Forster and exciton-phonon effects.

Contribution

It provides a theoretical analysis of temperature effects on Bell's inequality violation in quantum dot systems with specific environmental interactions.

Findings

01

Temperature significantly affects Bell's inequality violation.

02

Environmental interactions like Forster and exciton-phonon are crucial.

03

Theoretical insights into quantum dot cavity QED systems.

Abstract

Bell's inequality in two coupled quantum dots within cavity QED, including Forster and exciton-phonon interactions, is investigated theoretically. It is shown that the environmental temperature has a significant impact on Bell's inequality.

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