Propagation and Distribution of Quantum Correlations in a Cavity QED   Network

Raul Coto Cabrera; Miguel Orszag

arXiv:1306.1184·quant-ph·August 27, 2013

Propagation and Distribution of Quantum Correlations in a Cavity QED Network

Raul Coto Cabrera, Miguel Orszag

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TL;DR

This paper investigates how quantum correlations propagate and distribute in a cavity QED network composed of atomic chains connected by optical fibers, using an effective Hamiltonian and the Generalized Master Equation.

Contribution

It introduces a model for quantum correlation dynamics in cavity QED networks considering cavity losses and atom-field interactions.

Findings

01

Quantum correlations can be effectively propagated through the network.

02

Cavity losses influence the distribution of correlations.

03

The model provides insights into quantum information transfer in cavity networks.

Abstract

We study the propagation and distribution of quantum correlations through two chains of atoms inside cavities joined by optical fibers. We consider an effective Hamiltonian for the system and cavity losses, in the dressed atom picture, using the Generalized Master Equation.

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