Quantum decoherence of phonons in Bose-Einstein condensates
Quantum decoherence of phonons in Bose-Einstein condensates
We apply modern techniques from quantum optics and quantum information science to Bose–Einstein condensates (BECs) in order to study, for the first time, the quantum decoherence of phonons of isolated BECs. In the last few years, major advances in the manipulation and control of phonons have highlighted their potential as carriers of quantum information in quantum technologies, particularly in quantum processing and quantum communication. Although most of these studies have focused on trapped ion and crystalline systems, another promising system that has remained relatively unexplored is BECs. The potential benefits in using this system have been emphasized recently with proposals of relativistic quantum devices that exploit quantum states of phonons in BECs to achieve, in principle, superior performance over standard non-relativistic devices. Quantum decoherence is often the limiting factor in the practical realization of quantum technologies, but here we show that quantum decoherence of phonons is not expected to heavily constrain the performance of these proposed relativistic quantum devices.
quantum decoherence, quantum technology, Bose-Einstein condensates, phonons, gravitational waves
Howl, Richard
0856300a-849c-41af-b124-65947cca1cad
Sabin, Carlos
2579a1c2-57da-4a90-832a-0f1dbfd92bd6
Hackermuler, Lucia
01fbc878-fd24-4739-9b30-384fad4c74a3
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44
29 November 2017
Howl, Richard
0856300a-849c-41af-b124-65947cca1cad
Sabin, Carlos
2579a1c2-57da-4a90-832a-0f1dbfd92bd6
Hackermuler, Lucia
01fbc878-fd24-4739-9b30-384fad4c74a3
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44
Howl, Richard, Sabin, Carlos, Hackermuler, Lucia and Fuentes, Ivette
(2017)
Quantum decoherence of phonons in Bose-Einstein condensates.
Journal of Physics B: Atomic and Molecular Physics, 51, [15303].
(doi:10.1088/1361-6455/aa9622).
Abstract
We apply modern techniques from quantum optics and quantum information science to Bose–Einstein condensates (BECs) in order to study, for the first time, the quantum decoherence of phonons of isolated BECs. In the last few years, major advances in the manipulation and control of phonons have highlighted their potential as carriers of quantum information in quantum technologies, particularly in quantum processing and quantum communication. Although most of these studies have focused on trapped ion and crystalline systems, another promising system that has remained relatively unexplored is BECs. The potential benefits in using this system have been emphasized recently with proposals of relativistic quantum devices that exploit quantum states of phonons in BECs to achieve, in principle, superior performance over standard non-relativistic devices. Quantum decoherence is often the limiting factor in the practical realization of quantum technologies, but here we show that quantum decoherence of phonons is not expected to heavily constrain the performance of these proposed relativistic quantum devices.
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Accepted/In Press date: 29 November 2017
Published date: 29 November 2017
Keywords:
quantum decoherence, quantum technology, Bose-Einstein condensates, phonons, gravitational waves
Identifiers
Local EPrints ID: 479326
URI: http://eprints.soton.ac.uk/id/eprint/479326
ISSN: 0953-4075
PURE UUID: b570fb5d-5ea9-492b-a62d-a42b069dc49c
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Date deposited: 20 Jul 2023 17:27
Last modified: 17 Mar 2024 00:33
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Author:
Richard Howl
Author:
Carlos Sabin
Author:
Lucia Hackermuler
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