Quantum correlated light pulses from sequential superradiance of a   condensate

M.E. Tasgin; M.O. Oktel; L. You; and O.E. Mustecaplioglu

arXiv:0902.2705·cond-mat.other·January 14, 2010

Quantum correlated light pulses from sequential superradiance of a condensate

M.E. Tasgin, M.O. Oktel, L. You, and O.E. Mustecaplioglu

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TL;DR

This paper reveals a mechanism for entanglement swapping in sequential superradiance from a Bose-Einstein condensate, enabling the detection of EPR-type quantum correlations among scattered light pulses.

Contribution

It introduces a novel entanglement swap mechanism in sequential superradiance, supported by analytical and numerical analysis, advancing quantum optics and atomic physics.

Findings

01

Detection of EPR-type quantum correlations among light pulses

02

Identification of an inherent entanglement swap mechanism

03

Analytical and numerical validation of the process

Abstract

We discover an inherent mechanism for entanglement swap associated with sequential superradiance from an atomic Bose-Einstein condensate. Based on careful examinations with both analytical and numerical approaches, we conclude that as a result of the swap mechanism, Einstein-Podolsky-Rosen (EPR)-type quantum correlations can be detected among the scattered light pulses.

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