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Main Authors: Sharif, M., Gul, M. Zeeshan, Fatima, Nusrat
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.08516
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author Sharif, M.
Gul, M. Zeeshan
Fatima, Nusrat
author_facet Sharif, M.
Gul, M. Zeeshan
Fatima, Nusrat
contents This article examines the cosmic evolution in the framework of symmetric teleparallel theory, characterized by the function of non-metricity scalar $(\mathcal{Q})$. We use the e-folding number and reconstruction method with a suitable parametrization of the scale factor to obtain the functional form of symmetric teleparallel theory. Using this reconstructed model, we examine the behavior of different cosmographic parameters to demonstrate the bouncing scenarios of the cosmos by considering the contraction and expansion phases of cosmos before and after the bouncing point, respectively. It is found that the null energy condition is violated which shows that the singularity issue can be resolved in this extended theoretical framework. Moreover, we observe that the acceleration occurs near the bouncing point and the reconstructed model aligns with the current cosmic expansion. Finally, we check the validity of second law of thermodynamics in the bouncing framework of our model.
format Preprint
id arxiv_https___arxiv_org_abs_2410_08516
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Study of Cosmic Evolution admitting Thermodynamic Analysis
Sharif, M.
Gul, M. Zeeshan
Fatima, Nusrat
General Relativity and Quantum Cosmology
This article examines the cosmic evolution in the framework of symmetric teleparallel theory, characterized by the function of non-metricity scalar $(\mathcal{Q})$. We use the e-folding number and reconstruction method with a suitable parametrization of the scale factor to obtain the functional form of symmetric teleparallel theory. Using this reconstructed model, we examine the behavior of different cosmographic parameters to demonstrate the bouncing scenarios of the cosmos by considering the contraction and expansion phases of cosmos before and after the bouncing point, respectively. It is found that the null energy condition is violated which shows that the singularity issue can be resolved in this extended theoretical framework. Moreover, we observe that the acceleration occurs near the bouncing point and the reconstructed model aligns with the current cosmic expansion. Finally, we check the validity of second law of thermodynamics in the bouncing framework of our model.
title Study of Cosmic Evolution admitting Thermodynamic Analysis
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2410.08516