Exploring the unification of quantum theory and general relativity with a Bose-Einstein condensate
Exploring the unification of quantum theory and general relativity with a Bose-Einstein condensate
Despite almost a century's worth of study, it is still unclear how general relativity (GR) and quantum theory (QT) should be unified into a consistent theory. The conventional approach is to retain the foundational principles of QT, such as the superposition principle, and modify GR. This is referred to as 'quantizing gravity', resulting in a theory of 'quantum gravity'. The opposite approach is 'gravitizing QT' where we attempt to keep the principles of GR, such as the equivalence principle, and consider how this leads to modifications of QT. What we are most lacking in understanding which route to take, if either, is experimental guidance. Here we consider using a Bose–Einstein condensate (BEC) to search for clues. In particular, we study how a single BEC in a superposition of two locations could test a gravitizing QT proposal where wavefunction collapse emerges from a unified theory as an objective process, resolving the measurement problem of QT. Such a modification to QT due to general relativistic principles is testable near the Planck mass scale, which is much closer to experiments than the Planck length scale where quantum, general relativistic effects are traditionally anticipated in quantum gravity theories. Furthermore, experimental tests of this proposal should be simpler to perform than recently suggested experiments that would test the quantizing gravity approach in the Newtonian gravity limit by searching for entanglement between two massive systems that are both in a superposition of two locations.
quantum gravity, quantum superposition, Bose-Einstein condensates, general relativity, foundations of quantum theory
Howl, Richard
0856300a-849c-41af-b124-65947cca1cad
Penrose, Roger
b022258c-be27-4feb-8d46-9e893a9ee98b
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44
25 April 2019
Howl, Richard
0856300a-849c-41af-b124-65947cca1cad
Penrose, Roger
b022258c-be27-4feb-8d46-9e893a9ee98b
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44
Howl, Richard, Penrose, Roger and Fuentes, Ivette
(2019)
Exploring the unification of quantum theory and general relativity with a Bose-Einstein condensate.
New Journal of Physics, 21, [043047].
(doi:10.1088/1367-2630/ab104a).
Abstract
Despite almost a century's worth of study, it is still unclear how general relativity (GR) and quantum theory (QT) should be unified into a consistent theory. The conventional approach is to retain the foundational principles of QT, such as the superposition principle, and modify GR. This is referred to as 'quantizing gravity', resulting in a theory of 'quantum gravity'. The opposite approach is 'gravitizing QT' where we attempt to keep the principles of GR, such as the equivalence principle, and consider how this leads to modifications of QT. What we are most lacking in understanding which route to take, if either, is experimental guidance. Here we consider using a Bose–Einstein condensate (BEC) to search for clues. In particular, we study how a single BEC in a superposition of two locations could test a gravitizing QT proposal where wavefunction collapse emerges from a unified theory as an objective process, resolving the measurement problem of QT. Such a modification to QT due to general relativistic principles is testable near the Planck mass scale, which is much closer to experiments than the Planck length scale where quantum, general relativistic effects are traditionally anticipated in quantum gravity theories. Furthermore, experimental tests of this proposal should be simpler to perform than recently suggested experiments that would test the quantizing gravity approach in the Newtonian gravity limit by searching for entanglement between two massive systems that are both in a superposition of two locations.
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Howl_2019_New_J._Phys._21_043047
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Accepted/In Press date: 15 March 2019
Published date: 25 April 2019
Keywords:
quantum gravity, quantum superposition, Bose-Einstein condensates, general relativity, foundations of quantum theory
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Local EPrints ID: 473720
URI: http://eprints.soton.ac.uk/id/eprint/473720
ISSN: 1367-2630
PURE UUID: 586917a7-00e3-48f8-ac03-dabf6648f51a
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Date deposited: 30 Jan 2023 19:12
Last modified: 17 Mar 2024 00:32
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Author:
Richard Howl
Author:
Roger Penrose
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