Strong photon blockade with intracavity electromagnetically induced   transparency in blockaded Rydberg ensemble

G. W. Lin; Y. H. Qi; X. M. Lin; Y. P. Niu; and S. Q. Gong

arXiv:1308.2782·quant-ph·December 15, 2015

Strong photon blockade with intracavity electromagnetically induced transparency in blockaded Rydberg ensemble

G. W. Lin, Y. H. Qi, X. M. Lin, Y. P. Niu, and S. Q. Gong

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TL;DR

This paper demonstrates that intracavity electromagnetically induced transparency in a Rydberg atom ensemble can produce a very strong photon blockade effect, leveraging variable cavity lifetimes and Rydberg polaritons.

Contribution

It introduces a novel approach combining intracavity EIT with Rydberg interactions to achieve enhanced photon blockade effects.

Findings

01

Strong photon blockade achieved in Rydberg ensemble with intracavity EIT

02

Enhanced control over photon interactions via cavity lifetime tuning

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Potential for quantum information processing applications

Abstract

We consider the dynamics of intracavity electromagnetically induced transparency (EIT) in an ensemble of strongly interacting Rydberg atoms. By combining the advantage of variable cavity lifetimes with intracavity EIT and strongly interacting Rydberg dark-state polaritons, we show that such intracavity EIT system could exhibit very strong photon blockade effect.

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