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Generating entanglement between two-dimensional cavities in uniform acceleration

Generating entanglement between two-dimensional cavities in uniform acceleration
Generating entanglement between two-dimensional cavities in uniform acceleration
Moving cavities promise to be a suitable system for relativistic quantum information processing. It has been shown that an inertial and a uniformly accelerated one-dimensional cavity can become entangled by letting an atom emit an excitation while it passes through the cavities, but the acceleration degrades the ability to generate entanglement. We show that in the two-dimensional case the entanglement generated is affected not only by the cavity's acceleration but also by its transverse dimension which plays the role of an effective mass.
2470-0010
Regula, Bartosz
7990f792-9363-4fe4-bbec-19d809b5099e
Lee, Antony R.
653a0d5b-ba7c-41c9-871b-76d2048974e8
Dragan, Andrzej
32ebc0db-c618-4f11-8d54-f46b324fa664
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44
Regula, Bartosz
7990f792-9363-4fe4-bbec-19d809b5099e
Lee, Antony R.
653a0d5b-ba7c-41c9-871b-76d2048974e8
Dragan, Andrzej
32ebc0db-c618-4f11-8d54-f46b324fa664
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44

Regula, Bartosz, Lee, Antony R., Dragan, Andrzej and Fuentes, Ivette (2016) Generating entanglement between two-dimensional cavities in uniform acceleration. Physical Review D, 93 (2), [025034]. (doi:10.1103/PhysRevD.93.025034).

Record type: Article

Abstract

Moving cavities promise to be a suitable system for relativistic quantum information processing. It has been shown that an inertial and a uniformly accelerated one-dimensional cavity can become entangled by letting an atom emit an excitation while it passes through the cavities, but the acceleration degrades the ability to generate entanglement. We show that in the two-dimensional case the entanglement generated is affected not only by the cavity's acceleration but also by its transverse dimension which plays the role of an effective mass.

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More information

Published date: 28 January 2016
Additional Information: Publisher Copyright: © 2016 American Physical Society.

Identifiers

Local EPrints ID: 474303
URI: http://eprints.soton.ac.uk/id/eprint/474303
DOI: doi:10.1103/PhysRevD.93.025034
ISSN: 2470-0010
PURE UUID: 2e05e310-7eae-4dbf-b995-a72d45842b6e

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Date deposited: 17 Feb 2023 17:43
Last modified: 17 Mar 2024 00:32

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Contributors

Author: Bartosz Regula
Author: Antony R. Lee
Author: Andrzej Dragan
Author: Ivette Fuentes

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