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Autores principales: Tripathy, S. K., Pal, Sasmita, Mishra, B.
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2410.23307
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author Tripathy, S. K.
Pal, Sasmita
Mishra, B.
author_facet Tripathy, S. K.
Pal, Sasmita
Mishra, B.
contents Teleparallel description of gravity theories where the gravity is mediated through the tetrad field and consequent torsion provide an alternative route to explain the late time cosmic speed up issue. Generalization of the teleparallel gravity theory with different functional forms of the torsion scalar $T$ leads to $f(T)$ gravity. The role of scalar field played in addressing issues in cosmology and astrophysics has developed an interest in the inclusion of a scalar field along with an interaction potential in the action. Such a generalized gravity theory is dubbed as $f(T,ϕ)$ theory. We have explored such a gravity theory to reconstruct the interaction potential of the scalar field required for an extended matter bounce scenario. The cosmological implications of the reconstructed scalar field potential are studied considering two viable and well known functional forms of $f(T,ϕ)$. The energy conditions of these model are discussed to assess the viability of the cosmological models.
format Preprint
id arxiv_https___arxiv_org_abs_2410_23307
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Non-minimally coupled teleparallel scalar field reconstruction of matter bounce scenario
Tripathy, S. K.
Pal, Sasmita
Mishra, B.
General Relativity and Quantum Cosmology
High Energy Physics - Theory
Teleparallel description of gravity theories where the gravity is mediated through the tetrad field and consequent torsion provide an alternative route to explain the late time cosmic speed up issue. Generalization of the teleparallel gravity theory with different functional forms of the torsion scalar $T$ leads to $f(T)$ gravity. The role of scalar field played in addressing issues in cosmology and astrophysics has developed an interest in the inclusion of a scalar field along with an interaction potential in the action. Such a generalized gravity theory is dubbed as $f(T,ϕ)$ theory. We have explored such a gravity theory to reconstruct the interaction potential of the scalar field required for an extended matter bounce scenario. The cosmological implications of the reconstructed scalar field potential are studied considering two viable and well known functional forms of $f(T,ϕ)$. The energy conditions of these model are discussed to assess the viability of the cosmological models.
title Non-minimally coupled teleparallel scalar field reconstruction of matter bounce scenario
topic General Relativity and Quantum Cosmology
High Energy Physics - Theory
url https://arxiv.org/abs/2410.23307