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Main Authors: Myrzakulov, N., Shekh, S. H., Bhoyar, S. R., Pradhan, Anirudh
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.05298
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author Myrzakulov, N.
Shekh, S. H.
Bhoyar, S. R.
Pradhan, Anirudh
author_facet Myrzakulov, N.
Shekh, S. H.
Bhoyar, S. R.
Pradhan, Anirudh
contents In this study, we explore the cosmological implications of a modified gravity theory characterized by the function \( f(R, Σ, T) \), where \( R \) is the Ricci scalar, \( Σ\) represents a geometric deformation term, and \( T \) denotes the trace of the energy-momentum tensor. The model is reconstructed under the framework of three fundamental energy conditions: Null Energy Condition (NEC), Dominant Energy Condition (DEC), and Strong Energy Condition (SEC). We derive the corresponding Hubble parameter \( H(z) \) for each case and constrain the free parameters \( H_0 \), \( α\), and \( β\) using the latest Cosmic Chronometer (CC) and Pantheon+ Type Ia Supernova datasets. A thorough analysis of physical quantities such as pressure, energy density, and the equation of state parameter is carried out. Furthermore, diagnostic tools including the deceleration parameter \( q(z) \), statefinder parameters \( \{r, s\} \), and the $O_m(z)$ diagnostic are employed to assess the models viability. Our findings suggest that the model can consistently describe late-time cosmic acceleration and offers distinct behavior under different energy conditions, all while aligning with current observational data.
format Preprint
id arxiv_https___arxiv_org_abs_2507_05298
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dark Energy Behavior from Static Equation of State in Non-Minimally Coupled Gravity with Scalar Deformation
Myrzakulov, N.
Shekh, S. H.
Bhoyar, S. R.
Pradhan, Anirudh
General Relativity and Quantum Cosmology
In this study, we explore the cosmological implications of a modified gravity theory characterized by the function \( f(R, Σ, T) \), where \( R \) is the Ricci scalar, \( Σ\) represents a geometric deformation term, and \( T \) denotes the trace of the energy-momentum tensor. The model is reconstructed under the framework of three fundamental energy conditions: Null Energy Condition (NEC), Dominant Energy Condition (DEC), and Strong Energy Condition (SEC). We derive the corresponding Hubble parameter \( H(z) \) for each case and constrain the free parameters \( H_0 \), \( α\), and \( β\) using the latest Cosmic Chronometer (CC) and Pantheon+ Type Ia Supernova datasets. A thorough analysis of physical quantities such as pressure, energy density, and the equation of state parameter is carried out. Furthermore, diagnostic tools including the deceleration parameter \( q(z) \), statefinder parameters \( \{r, s\} \), and the $O_m(z)$ diagnostic are employed to assess the models viability. Our findings suggest that the model can consistently describe late-time cosmic acceleration and offers distinct behavior under different energy conditions, all while aligning with current observational data.
title Dark Energy Behavior from Static Equation of State in Non-Minimally Coupled Gravity with Scalar Deformation
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2507.05298