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Main Authors: Das, Surajit, Mandal, Sanjay
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2306.14912
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author Das, Surajit
Mandal, Sanjay
author_facet Das, Surajit
Mandal, Sanjay
contents In this article, we explore the comprehensive narrative of cosmic evolution within a cosmological framework by utilizing a novel form of gravity known as generalized symmetric teleparallel gravity, denoted as $f(Q,T)$ gravity. Here, $Q$ represents the non-metricity scalar, while $T$ denotes the trace of the energy-momentum tensor. We present and analyze two distinct $f(Q,T)$ cosmological models, each characterized by its unique Lagrangian. Our investigation delves into the cosmological parameters of these models, scrutinizing various energy conditions, examining the inflationary dynamics of the early universe through scalar field formulations, and probing the mysterious nature of dark energy using statefinder diagnostics and $(ω-ω')$ phase space analysis. Ultimately, our findings offer a comprehensive account of cosmic evolution, spanning from the early universe to its late-time evolution.
format Preprint
id arxiv_https___arxiv_org_abs_2306_14912
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle $f(Q,T)$ gravity: From early to late-time cosmic acceleration
Das, Surajit
Mandal, Sanjay
General Physics
In this article, we explore the comprehensive narrative of cosmic evolution within a cosmological framework by utilizing a novel form of gravity known as generalized symmetric teleparallel gravity, denoted as $f(Q,T)$ gravity. Here, $Q$ represents the non-metricity scalar, while $T$ denotes the trace of the energy-momentum tensor. We present and analyze two distinct $f(Q,T)$ cosmological models, each characterized by its unique Lagrangian. Our investigation delves into the cosmological parameters of these models, scrutinizing various energy conditions, examining the inflationary dynamics of the early universe through scalar field formulations, and probing the mysterious nature of dark energy using statefinder diagnostics and $(ω-ω')$ phase space analysis. Ultimately, our findings offer a comprehensive account of cosmic evolution, spanning from the early universe to its late-time evolution.
title $f(Q,T)$ gravity: From early to late-time cosmic acceleration
topic General Physics
url https://arxiv.org/abs/2306.14912