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Massive quantum systems as interfaces of quantum mechanics and gravity

Massive quantum systems as interfaces of quantum mechanics and gravity
Massive quantum systems as interfaces of quantum mechanics and gravity
The traditional view from particle physics is that quantum-gravity effects should become detectable only at extremely high energies and small length scales. Owing to the significant technological challenges involved, there has been limited progress in identifying experimentally detectable effects that can be accessed in the foreseeable future. However, in recent decades the size and mass of quantum systems that can be controlled in the laboratory have reached unprecedented scales, enabled by advances in ground-state cooling and quantum-control techniques. Preparations of massive systems in quantum states pave the way for the explorations of a low-energy regime in which gravity can be both sourced and probed by quantum systems. Such approaches constitute an increasingly viable alternative to accelerator-based, laser-interferometric, torsion-balance, and cosmological tests of gravity. In this review an …
0034-6861
Bose, Sougato
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Fuentes, Ivette
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Geraci, Andrew
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Khan, Saba Mehsar
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Qvarfort, Sofia
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Rademacher, Markus
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Rashid, Muddassar
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Toroš, Marko
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Ulbricht, Hendrik
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Wanjura, Clara C
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Bose, Sougato
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Fuentes, Ivette
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Geraci, Andrew
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Khan, Saba Mehsar
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Qvarfort, Sofia
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Rademacher, Markus
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Rashid, Muddassar
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Toroš, Marko
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Ulbricht, Hendrik
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Wanjura, Clara C
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Bose, Sougato, Fuentes, Ivette, Geraci, Andrew, Khan, Saba Mehsar, Qvarfort, Sofia, Rademacher, Markus, Rashid, Muddassar, Toroš, Marko, Ulbricht, Hendrik and Wanjura, Clara C (2025) Massive quantum systems as interfaces of quantum mechanics and gravity. Reviews of Modern Physics, 97 (1), [015003]. (doi:10.1103/RevModPhys.97.015003).

Record type: Article

Abstract

The traditional view from particle physics is that quantum-gravity effects should become detectable only at extremely high energies and small length scales. Owing to the significant technological challenges involved, there has been limited progress in identifying experimentally detectable effects that can be accessed in the foreseeable future. However, in recent decades the size and mass of quantum systems that can be controlled in the laboratory have reached unprecedented scales, enabled by advances in ground-state cooling and quantum-control techniques. Preparations of massive systems in quantum states pave the way for the explorations of a low-energy regime in which gravity can be both sourced and probed by quantum systems. Such approaches constitute an increasingly viable alternative to accelerator-based, laser-interferometric, torsion-balance, and cosmological tests of gravity. In this review an …

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Massive quantum systems as interfaces of quantum mechanics and gravity
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Published date: 13 February 2025
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Identifiers

Local EPrints ID: 500683
URI: http://eprints.soton.ac.uk/id/eprint/500683
DOI: doi:10.1103/RevModPhys.97.015003
ISSN: 0034-6861
PURE UUID: 290e2cb1-96d2-40e2-8813-402ef5ca677d
ORCID for Hendrik Ulbricht: ORCID iD orcid.org/0000-0003-0356-0065

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Date deposited: 09 May 2025 16:44
Last modified: 30 Aug 2025 01:44

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Contributors

Author: Sougato Bose
Author: Ivette Fuentes
Author: Andrew Geraci
Author: Saba Mehsar Khan
Author: Sofia Qvarfort
Author: Markus Rademacher
Author: Muddassar Rashid
Author: Marko Toroš
Author: Hendrik Ulbricht ORCID iD
Author: Clara C Wanjura

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