Inhomogeneous post-inflationary Lambda-CDM cosmology as a moduli space expansion
Inhomogeneous post-inflationary Lambda-CDM cosmology as a moduli space expansion
We model the large scale late time universe as a Lambda-CDM cosmology driven by cosmological constant and perfect dust fluid. Our aim is to find new solutions in the matter and Lambda epoch consistent with inflationary initial conditions, namely that to the far past in the matter era the cosmology tends to a flat FLRW solution. We identify the moduli degrees of freedom that parametrize the flat Lambda-dust FLRW solution and then promote these moduli to slowly varying functions of the spatial coordinates and show how to solve the Einstein equations in a comoving gradient expansion, controlled by the cosmological constant length scale. Our initial conditions ensure that the approximation remains under control to the far past of the matter era, and to the far future of Lambda domination. The solution is fully non-perturbative in the amplitude of the metric deformation, and we explicitly construct it to fourth order in derivatives. A general Lambda-dust universe dominated by Lambda in the future is characterized by a 3-metric and a stress tensor (with positive trace) defined on the future conformal boundary. The new cosmologies with inflationary initial conditions are characterized only by the boundary 3-metric, the stress tensor being locally determined entirely in terms of that metric.
hep-th, astro-ph.CO, gr-qc
Wiseman, Toby
9be56af7-0bf1-4108-a03d-ad82506d990b
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9
21 October 2010
Wiseman, Toby
9be56af7-0bf1-4108-a03d-ad82506d990b
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9
Wiseman, Toby and Withers, Benjamin
(2010)
Inhomogeneous post-inflationary Lambda-CDM cosmology as a moduli space expansion.
Physical Review D, 84 (12), [123517].
(doi:10.1103/PhysRevD.84.123517).
Abstract
We model the large scale late time universe as a Lambda-CDM cosmology driven by cosmological constant and perfect dust fluid. Our aim is to find new solutions in the matter and Lambda epoch consistent with inflationary initial conditions, namely that to the far past in the matter era the cosmology tends to a flat FLRW solution. We identify the moduli degrees of freedom that parametrize the flat Lambda-dust FLRW solution and then promote these moduli to slowly varying functions of the spatial coordinates and show how to solve the Einstein equations in a comoving gradient expansion, controlled by the cosmological constant length scale. Our initial conditions ensure that the approximation remains under control to the far past of the matter era, and to the far future of Lambda domination. The solution is fully non-perturbative in the amplitude of the metric deformation, and we explicitly construct it to fourth order in derivatives. A general Lambda-dust universe dominated by Lambda in the future is characterized by a 3-metric and a stress tensor (with positive trace) defined on the future conformal boundary. The new cosmologies with inflationary initial conditions are characterized only by the boundary 3-metric, the stress tensor being locally determined entirely in terms of that metric.
Text
1010.4428v1
- Accepted Manuscript
More information
Published date: 21 October 2010
Additional Information:
11 pages, 1 figure
Keywords:
hep-th, astro-ph.CO, gr-qc
Identifiers
Local EPrints ID: 454968
URI: http://eprints.soton.ac.uk/id/eprint/454968
ISSN: 1550-7998
PURE UUID: f2ae36e8-63e7-4758-a0f3-03ce4313a9f9
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Date deposited: 02 Mar 2022 18:00
Last modified: 17 Mar 2024 02:27
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Author:
Toby Wiseman
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