Cargando…

Massive and modified gravity as self-gravitating media

We study the effective field theory that describes the low-energy physics of self-gravitating media. The field content consists of four derivatively coupled scalar fields that can be identified with the internal comoving coordinates of the medium. Imposing SO(3) internal spatial invariance, the theo...

Descripción completa

Detalles Bibliográficos
Autores principales: Ballesteros, Guillermo, Comelli, Denis, Pilo, Luigi
Lenguaje:eng
Publicado: 2016
Materias:
Acceso en línea:https://dx.doi.org/10.1103/PhysRevD.94.124023
http://cds.cern.ch/record/2138144
_version_ 1780950045058662400
author Ballesteros, Guillermo
Comelli, Denis
Pilo, Luigi
author_facet Ballesteros, Guillermo
Comelli, Denis
Pilo, Luigi
author_sort Ballesteros, Guillermo
collection CERN
description We study the effective field theory that describes the low-energy physics of self-gravitating media. The field content consists of four derivatively coupled scalar fields that can be identified with the internal comoving coordinates of the medium. Imposing SO(3) internal spatial invariance, the theory describes supersolids. Stronger symmetry requirements lead to superfluids, solids and perfect fluids, at lowest order in derivatives. In the unitary gauge, massive gravity emerges, being thus the result of a continuous medium propagating in spacetime. Our results can be used to explore systematically the effects and signatures of modifying gravity consistently at large distances. The dark sector is then described as a self-gravitating medium with dynamical and thermodynamic properties dictated by internal symmetries. These results indicate that the divide between dark energy and modified gravity, at large distance scales, is simply a gauge choice.
id cern-2138144
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2016
record_format invenio
spelling cern-21381442023-10-04T07:36:13Zdoi:10.1103/PhysRevD.94.124023http://cds.cern.ch/record/2138144engBallesteros, GuillermoComelli, DenisPilo, LuigiMassive and modified gravity as self-gravitating mediaParticle Physics - TheoryWe study the effective field theory that describes the low-energy physics of self-gravitating media. The field content consists of four derivatively coupled scalar fields that can be identified with the internal comoving coordinates of the medium. Imposing SO(3) internal spatial invariance, the theory describes supersolids. Stronger symmetry requirements lead to superfluids, solids and perfect fluids, at lowest order in derivatives. In the unitary gauge, massive gravity emerges, being thus the result of a continuous medium propagating in spacetime. Our results can be used to explore systematically the effects and signatures of modifying gravity consistently at large distances. The dark sector is then described as a self-gravitating medium with dynamical and thermodynamic properties dictated by internal symmetries. These results indicate that the divide between dark energy and modified gravity, at large distance scales, is simply a gauge choice.We study the effective field theory that describes the low-energy physics of self-gravitating media. The field content consists of four derivatively coupled scalar fields that can be identified with the internal comoving coordinates of the medium. Imposing SO(3) internal spatial invariance, the theory describes supersolids. Stronger symmetry requirements lead to superfluids, solids and perfect fluids, at lowest order in derivatives. In the unitary gauge, massive gravity emerges, being thus the result of a continuous medium propagating in spacetime. Our results can be used to explore systematically the effects and signatures of modifying gravity consistently at large distances. The dark sector is then described as a self-gravitating medium with dynamical and thermodynamic properties dictated by internal symmetries. These results indicate that the divide between dark energy and modified gravity, at large distance scales, is simply a gauge choice.arXiv:1603.02956CERN-TH-2016-043CERN-TH-2016-043oai:cds.cern.ch:21381442016-03-09
spellingShingle Particle Physics - Theory
Ballesteros, Guillermo
Comelli, Denis
Pilo, Luigi
Massive and modified gravity as self-gravitating media
title Massive and modified gravity as self-gravitating media
title_full Massive and modified gravity as self-gravitating media
title_fullStr Massive and modified gravity as self-gravitating media
title_full_unstemmed Massive and modified gravity as self-gravitating media
title_short Massive and modified gravity as self-gravitating media
title_sort massive and modified gravity as self-gravitating media
topic Particle Physics - Theory
url https://dx.doi.org/10.1103/PhysRevD.94.124023
http://cds.cern.ch/record/2138144
work_keys_str_mv AT ballesterosguillermo massiveandmodifiedgravityasselfgravitatingmedia
AT comellidenis massiveandmodifiedgravityasselfgravitatingmedia
AT piloluigi massiveandmodifiedgravityasselfgravitatingmedia