Eternal inflation and a thermodynamic treatment of Einstein's equations

Gálvez Ghersi José Tomás; Geshnizjani Ghazal; Piazza Federico; Shandera Sarah

doi:10.1088/1475-7516/2011/06/005

Eternal inflation and a thermodynamic treatment of Einstein's equations

Gálvez Ghersi José Tomás
, Geshnizjani Ghazal
, Piazza Federico
, Shandera Sarah

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

In pursuing the intriguing resemblance of the Einstein equations to thermodynamic equations, most sharply seen in systems possessing horizons, we suggest that eternal inflation of the stochastic type may be a fruitful phenomenon to explore. We develop a thermodynamic first law for quasi-de Sitter space, valid on the horizon of a single observer's Hubble patch and explore consistancy with previous proposals for horizons of various types in dynamic and static situations. We use this framework to demonstrate that for the local observer fluctuations of the type necessary for stochastic eternal inflation fall within the regime where the thermodynamic approach is believed to apply. This scenario is interesting because of suggestive parallels with black hole evaporation.

Original language	English
Article number	005
Journal	Journal of Cosmology and Astroparticle Physics
Volume	2011
Issue number	6
DOIs	https://doi.org/10.1088/1475-7516/2011/06/005
State	Published - Jun 2011
Externally published	Yes

Keywords

cosmological perturbation theory
ination
initial conditions and eternal universe
physics of the early universe

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10.1088/1475-7516/2011/06/005

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title = "Eternal inflation and a thermodynamic treatment of Einstein's equations",

abstract = "In pursuing the intriguing resemblance of the Einstein equations to thermodynamic equations, most sharply seen in systems possessing horizons, we suggest that eternal inflation of the stochastic type may be a fruitful phenomenon to explore. We develop a thermodynamic first law for quasi-de Sitter space, valid on the horizon of a single observer's Hubble patch and explore consistancy with previous proposals for horizons of various types in dynamic and static situations. We use this framework to demonstrate that for the local observer fluctuations of the type necessary for stochastic eternal inflation fall within the regime where the thermodynamic approach is believed to apply. This scenario is interesting because of suggestive parallels with black hole evaporation.",

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AU - José Tomás, Gálvez Ghersi

AU - Ghazal, Geshnizjani

AU - Federico, Piazza

AU - Sarah, Shandera

PY - 2011/6

Y1 - 2011/6

N2 - In pursuing the intriguing resemblance of the Einstein equations to thermodynamic equations, most sharply seen in systems possessing horizons, we suggest that eternal inflation of the stochastic type may be a fruitful phenomenon to explore. We develop a thermodynamic first law for quasi-de Sitter space, valid on the horizon of a single observer's Hubble patch and explore consistancy with previous proposals for horizons of various types in dynamic and static situations. We use this framework to demonstrate that for the local observer fluctuations of the type necessary for stochastic eternal inflation fall within the regime where the thermodynamic approach is believed to apply. This scenario is interesting because of suggestive parallels with black hole evaporation.

AB - In pursuing the intriguing resemblance of the Einstein equations to thermodynamic equations, most sharply seen in systems possessing horizons, we suggest that eternal inflation of the stochastic type may be a fruitful phenomenon to explore. We develop a thermodynamic first law for quasi-de Sitter space, valid on the horizon of a single observer's Hubble patch and explore consistancy with previous proposals for horizons of various types in dynamic and static situations. We use this framework to demonstrate that for the local observer fluctuations of the type necessary for stochastic eternal inflation fall within the regime where the thermodynamic approach is believed to apply. This scenario is interesting because of suggestive parallels with black hole evaporation.

KW - cosmological perturbation theory

KW - ination

KW - initial conditions and eternal universe

KW - physics of the early universe

UR - https://www.scopus.com/pages/publications/79959958732

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JO - Journal of Cosmology and Astroparticle Physics

JF - Journal of Cosmology and Astroparticle Physics

IS - 6

M1 - 005

ER -

Eternal inflation and a thermodynamic treatment of Einstein's equations

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Keywords

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