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Main Authors: Brizuela, David, Uria, Sara F.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.17307
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author Brizuela, David
Uria, Sara F.
author_facet Brizuela, David
Uria, Sara F.
contents The goal of this paper is to analyze the effects of the matter fields in the evolution of the Bianchi IX cosmology close to the singularity. Although the dynamics of this model is very involved, asymptotically, as the singularity is approached, it can be well approximated as a succession of Bianchi I periods connected by quick bounces against potential walls. Moreover, in such limit, matter fields (excluding stiff matter) are known to be subdominant with respect to the anisotropies. Therefore, by performing an expansion around small volumes, and assuming that the dominant matter contribution in this regime can be described as a barotropic perfect fluid with a linear equation of state, we obtain an approximate analytic solution of the dynamics. Then, we explicitly compute the form of the transition (Kasner) map that relates the pre- and post-bounce Bianchi I periods including the leading matter effects. As an important conclusion, we observe that generically the presence of matter leads to a post-bounce velocity with a lower deflection angle than in the vacuum case, and thus effectively increases the convex curvature of the potential walls. This effect may have important consequences in the chaotic nature of general relativity near spacelike singularities.
format Preprint
id arxiv_https___arxiv_org_abs_2407_17307
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Asymptotics of Bianchi IX under the presence of matter: approximate Kasner map
Brizuela, David
Uria, Sara F.
General Relativity and Quantum Cosmology
The goal of this paper is to analyze the effects of the matter fields in the evolution of the Bianchi IX cosmology close to the singularity. Although the dynamics of this model is very involved, asymptotically, as the singularity is approached, it can be well approximated as a succession of Bianchi I periods connected by quick bounces against potential walls. Moreover, in such limit, matter fields (excluding stiff matter) are known to be subdominant with respect to the anisotropies. Therefore, by performing an expansion around small volumes, and assuming that the dominant matter contribution in this regime can be described as a barotropic perfect fluid with a linear equation of state, we obtain an approximate analytic solution of the dynamics. Then, we explicitly compute the form of the transition (Kasner) map that relates the pre- and post-bounce Bianchi I periods including the leading matter effects. As an important conclusion, we observe that generically the presence of matter leads to a post-bounce velocity with a lower deflection angle than in the vacuum case, and thus effectively increases the convex curvature of the potential walls. This effect may have important consequences in the chaotic nature of general relativity near spacelike singularities.
title Asymptotics of Bianchi IX under the presence of matter: approximate Kasner map
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2407.17307