Optomechanical test of the Schrödinger-Newton equation

Großardt, André; Bateman, James; Ulbricht, Hendrik; Bassi, Angelo

doi:10.1103/physrevd.93.096003

Journal article 1252 views

Optomechanical test of the Schrödinger-Newton equation

André Großardt, James Bateman

, Hendrik Ulbricht, Angelo Bassi

Physical Review D, Volume: 93, Issue: 9

Swansea University Author: James Bateman

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DOI (Published version): 10.1103/physrevd.93.096003

Abstract

The Schrodinger-Newton equation has been proposed as an experimentally testable alternative to quantum gravity, accessible at low energies. It contains self-gravitational terms, which slightly modify the quantum dynamics. Here we show that it distorts the spectrum of a harmonic system. Based on this...

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Published in:	Physical Review D
ISSN:	2470-0010 2470-0029
Published:	American Physical Society (APS) 2016
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa30576

first_indexed	2016-10-14T12:54:31Z
last_indexed	2020-08-07T02:50:30Z
id	cronfa30576
recordtype	SURis
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spelling	2020-08-06T10:39:32.7577264 v2 30576 2016-10-14 Optomechanical test of the Schrödinger-Newton equation 3b46126aa511514414c6c42c9c6f0654 0000-0003-4885-2539 James Bateman James Bateman true false 2016-10-14 BGPS The Schrodinger-Newton equation has been proposed as an experimentally testable alternative to quantum gravity, accessible at low energies. It contains self-gravitational terms, which slightly modify the quantum dynamics. Here we show that it distorts the spectrum of a harmonic system. Based on this effect, we propose an optomechanical experiment with a trapped microdisc to test the Schr\"odinger-Newton equation, and we show that it can be realized with existing technology. Journal Article Physical Review D 93 9 American Physical Society (APS) 2470-0010 2470-0029 4 5 2016 2016-05-04 10.1103/physrevd.93.096003 COLLEGE NANME Biosciences Geography and Physics School COLLEGE CODE BGPS Swansea University 2020-08-06T10:39:32.7577264 2016-10-14T10:35:02.6602800 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics André Großardt 1 James Bateman 0000-0003-4885-2539 2 Hendrik Ulbricht 3 Angelo Bassi 4
title	Optomechanical test of the Schrödinger-Newton equation
spellingShingle	Optomechanical test of the Schrödinger-Newton equation James Bateman
title_short	Optomechanical test of the Schrödinger-Newton equation
title_full	Optomechanical test of the Schrödinger-Newton equation
title_fullStr	Optomechanical test of the Schrödinger-Newton equation
title_full_unstemmed	Optomechanical test of the Schrödinger-Newton equation
title_sort	Optomechanical test of the Schrödinger-Newton equation
author_id_str_mv	3b46126aa511514414c6c42c9c6f0654
author_id_fullname_str_mv	3b46126aa511514414c6c42c9c6f0654_***_James Bateman
author	James Bateman
author2	André Großardt James Bateman Hendrik Ulbricht Angelo Bassi
format	Journal article
container_title	Physical Review D
container_volume	93
container_issue	9
publishDate	2016
institution	Swansea University
issn	2470-0010 2470-0029
doi_str_mv	10.1103/physrevd.93.096003
publisher	American Physical Society (APS)
college_str	Faculty of Science and Engineering
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hierarchy_top_title	Faculty of Science and Engineering
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department_str	School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics
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description	The Schrodinger-Newton equation has been proposed as an experimentally testable alternative to quantum gravity, accessible at low energies. It contains self-gravitational terms, which slightly modify the quantum dynamics. Here we show that it distorts the spectrum of a harmonic system. Based on this effect, we propose an optomechanical experiment with a trapped microdisc to test the Schr\"odinger-Newton equation, and we show that it can be realized with existing technology.
published_date	2016-05-04T07:01:44Z
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score	11.04748

Optomechanical test of the Schrödinger-Newton equation

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