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Main Authors: Shaily, Singh, J. K., Tyagi, Mohit, Santos, Joao R. L.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.00032
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author Shaily
Singh, J. K.
Tyagi, Mohit
Santos, Joao R. L.
author_facet Shaily
Singh, J. K.
Tyagi, Mohit
Santos, Joao R. L.
contents In this work, we developed a cosmological model in $ f(Q, C) $ gravity within the framework of symmetric teleparallel geometry. In addition to the non-metricity scalar $Q $, our formulation includes the boundary term $ C $, which accounts for its deviation from the standard Levi-Civita Ricci scalar $ R^* $ in the Lagrangian. We derived the field equations for the metric and affine connection, employed them within a cosmological setting, and a vanishing affine connection to derive modified Friedmann equations. We used the latest observational dataset OHD in the redshift range $ z \in [0, 2.36]$, Pantheon + SH0ES in the redshift range $ z \in (0.01, 2.26)$, BAO, and the joint datasets OHD + Pantheon + SH0ES and OHD + Pantheon + SH0ES + BAO to constrain the parameters of our model by employing Markov Chain Monte Carlo (MCMC) method to minimize the $χ^2$ term. Using the constrained free model parameters, we carefully analyzed the behavior of different physical parameters and verified that the model transits from deceleration to acceleration. Finally, we observed that the model demonstrates an expanding quintessence dark energy model and converges to the $ Λ$CDM in later times.
format Preprint
id arxiv_https___arxiv_org_abs_2411_00032
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Cosmic observation of a model in the horizon of $ f(Q, C) $-gravity
Shaily
Singh, J. K.
Tyagi, Mohit
Santos, Joao R. L.
General Relativity and Quantum Cosmology
In this work, we developed a cosmological model in $ f(Q, C) $ gravity within the framework of symmetric teleparallel geometry. In addition to the non-metricity scalar $Q $, our formulation includes the boundary term $ C $, which accounts for its deviation from the standard Levi-Civita Ricci scalar $ R^* $ in the Lagrangian. We derived the field equations for the metric and affine connection, employed them within a cosmological setting, and a vanishing affine connection to derive modified Friedmann equations. We used the latest observational dataset OHD in the redshift range $ z \in [0, 2.36]$, Pantheon + SH0ES in the redshift range $ z \in (0.01, 2.26)$, BAO, and the joint datasets OHD + Pantheon + SH0ES and OHD + Pantheon + SH0ES + BAO to constrain the parameters of our model by employing Markov Chain Monte Carlo (MCMC) method to minimize the $χ^2$ term. Using the constrained free model parameters, we carefully analyzed the behavior of different physical parameters and verified that the model transits from deceleration to acceleration. Finally, we observed that the model demonstrates an expanding quintessence dark energy model and converges to the $ Λ$CDM in later times.
title Cosmic observation of a model in the horizon of $ f(Q, C) $-gravity
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2411.00032