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Spin entanglement witness for quantum gravity

Spin entanglement witness for quantum gravity
Spin entanglement witness for quantum gravity
Understanding gravity in the framework of quantum mechanics is one of the great challenges in modern physics. However, the lack of empirical evidence has lead to a debate on whether gravity is a quantum entity. Despite varied proposed probes for quantum gravity, it is fair to say that there are no feasible ideas yet to test its quantum coherent behavior directly in a laboratory experiment. Here, we introduce an idea for such a test based on the principle that two objects cannot be entangled without a quantum mediator. We show that despite the weakness of gravity, the phase evolution induced by the gravitational interaction of two micron size test masses in adjacent matter-wave interferometers can detectably entangle them even when they are placed far apart enough to keep Casimir-Polder forces at bay. We provide a prescription for witnessing this entanglement, which certifies gravity as a quantum coherent mediator, through simple spin correlation measurements.
1079-7114
Bose, Sougato
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Mazumdar, Anupam
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Morley, Gavin W.
7e04610a-b3e5-45e8-ab9e-6c55c8e015be
Ulbricht, Hendrik
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Toros, Marko
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Paternostro, Mauro
cd9f8236-ceac-42f6-815d-e2dd6a1f4c07
Geraci, Andrew
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Barker, Peter
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Kim, M.S.
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Milburn, Gerard
a47156fe-21a4-4d98-9fba-e3746427bb38
Bose, Sougato
d8763294-bd75-4347-9219-a8a70c0f4ae8
Mazumdar, Anupam
57272b7f-45c3-4c22-8828-d378775381b7
Morley, Gavin W.
7e04610a-b3e5-45e8-ab9e-6c55c8e015be
Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
Toros, Marko
bd02c9f1-e498-474e-a98d-5b9882874915
Paternostro, Mauro
cd9f8236-ceac-42f6-815d-e2dd6a1f4c07
Geraci, Andrew
38413090-4297-488e-a20a-5a12ac228f2d
Barker, Peter
123ddd48-d592-406b-8764-1b735061e3c3
Kim, M.S.
66d3deeb-658d-4024-9846-6eb2d68d720a
Milburn, Gerard
a47156fe-21a4-4d98-9fba-e3746427bb38

Bose, Sougato, Mazumdar, Anupam, Morley, Gavin W., Ulbricht, Hendrik, Toros, Marko, Paternostro, Mauro, Geraci, Andrew, Barker, Peter, Kim, M.S. and Milburn, Gerard (2017) Spin entanglement witness for quantum gravity. Physical Review Letters, 119 (24), [240401]. (doi:10.1103/PhysRevLett.119.240401).

Record type: Article

Abstract

Understanding gravity in the framework of quantum mechanics is one of the great challenges in modern physics. However, the lack of empirical evidence has lead to a debate on whether gravity is a quantum entity. Despite varied proposed probes for quantum gravity, it is fair to say that there are no feasible ideas yet to test its quantum coherent behavior directly in a laboratory experiment. Here, we introduce an idea for such a test based on the principle that two objects cannot be entangled without a quantum mediator. We show that despite the weakness of gravity, the phase evolution induced by the gravitational interaction of two micron size test masses in adjacent matter-wave interferometers can detectably entangle them even when they are placed far apart enough to keep Casimir-Polder forces at bay. We provide a prescription for witnessing this entanglement, which certifies gravity as a quantum coherent mediator, through simple spin correlation measurements.

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A Spin Entanglement Witness for Quantum Gravity - Accepted Manuscript
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Accepted/In Press date: 9 November 2017
e-pub ahead of print date: 13 December 2017
Published date: 13 December 2017
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Identifiers

Local EPrints ID: 415917
URI: http://eprints.soton.ac.uk/id/eprint/415917
DOI: doi:10.1103/PhysRevLett.119.240401
ISSN: 1079-7114
PURE UUID: aaaf53ee-b36a-413c-8e53-e4eb9c32867c
ORCID for Hendrik Ulbricht: ORCID iD orcid.org/0000-0003-0356-0065

Catalogue record

Date deposited: 28 Nov 2017 17:31
Last modified: 16 Mar 2024 05:57

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Contributors

Author: Sougato Bose
Author: Anupam Mazumdar
Author: Gavin W. Morley
Author: Hendrik Ulbricht ORCID iD
Author: Marko Toros
Author: Mauro Paternostro
Author: Andrew Geraci
Author: Peter Barker
Author: M.S. Kim
Author: Gerard Milburn

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