Journal article

When can gravity path-entangle two spatially superposed masses?

Abstract:: An experimental test of quantum effects in gravity has recently been proposed, where the gravitational field's ability to entangle two masses is used as a witness of its quantum nature. Here, we discuss what existing models for coupled matter and gravity predict for this experiment. Collapse-type models, and also quantum field theory in curved spacetime, as well as various induced gravities, do not predict entanglement generation; they would, therefore, be ruled out as fundamental descriptions of gravity if entanglement were observed. Instead, local linearized quantum gravity models predict that the masses can become entangled. We analyze the mechanism by which entanglement is established in such models, modeling a gravity-assisted two-qubit gate.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Marletto, C., & Vedral, V. (2018). When can gravity path-entangle two spatially superposed masses? Physical Review D, 98(4).

MLA Style

Marletto, C., and V. Vedral. “When Can Gravity Path-Entangle Two Spatially Superposed Masses?” Physical Review D, vol. 98, no. 4, American Physical Society, 2018.

Chicago Style

Marletto, C, and V Vedral. 2018. “When Can Gravity Path-Entangle Two Spatially Superposed Masses?” Physical Review D 98 (4).
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Files:: MarlettoetalVoR2018.pdf

(Preview, Version of record, pdf, 126.7KB, Terms of use)

Publisher copy:: 10.1103/physrevd.98.046001

Authors

+ Marletto, C More by this author

Institution:: University of Oxford
Division:: MPLS Division
Department:: Physics
Sub department:: Atomic & Laser Physics
Role:: Author

+ Vedral, V More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Physics
Sub department:: Atomic & Laser Physics
Oxford college:: Wolfson College
Role:: Author

Publisher:: American Physical Society
Journal:: Physical Review D More from this journal
Volume:: 98
Issue:: 4
Publication date:: 2018-08-01
DOI:: 10.1103/physrevd.98.046001
EISSN:: 2470-0029
ISSN:: 2470-0010

Language:: English
Keywords:: FFR
Pubs id:: pubs:906354
UUID:: uuid:930bd83d-b386-4388-bdff-cdc12e9f1bf7
Local pid:: pubs:906354
Source identifiers:: 906354
Deposit date:: 2019-09-22

Terms of use

Copyright date:: 2018
Notes:: © 2018 American Physical Society

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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