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Autores principales: Thakre, Mohit, Dhankar, Praveen Kumar, Islam, Safiqul, Sahoo, Parbati, Rahaman, Farook, Pourhassan, Behnam
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.03116
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author Thakre, Mohit
Dhankar, Praveen Kumar
Islam, Safiqul
Sahoo, Parbati
Rahaman, Farook
Pourhassan, Behnam
author_facet Thakre, Mohit
Dhankar, Praveen Kumar
Islam, Safiqul
Sahoo, Parbati
Rahaman, Farook
Pourhassan, Behnam
contents We have examined the cosmological actions of LRS (Locally Rationally Symmetric) Bianchi type-I universe model in $f(R,T^ψ)$ gravity. For this, we have estimated the Hubble parameter, the effective equation of state parameter ($ω^{eff}$), and the potential of the scalar field as a function of time using equation $H = W(ψ)$. The graphical representation of the potential function $V(ψ)$ with respect to cosmic time t is described. This study explores the dynamical properties of a Bianchi Type-I universe by utilizing Bayesian statistical techniques to constrain the model parameters and evaluate the viability of anisotropic cosmology under extended matter-geometry couplings. Also, we have applied the Markov Chain Monte Carlo (MCMC) mechanism on the derived $H(z)$ model by using observational Hubble data (OHD), the Baryon Acoustic Oscillation (BAO) dataset, and the Pantheon dataset. From the confidence-level contours and best-fit parameter values obtained, along with the corresponding reduced $χ^{2}$, it is evident that the model aligns strongly with observational data, demonstrating statistical stability and consistency in describing late-time cosmic acceleration. Likewise, the error analyses presented in this research, including a comparison between the $Λ$CDM cosmology and the reconstructed $H(z)$ model, confirm the model's compatibility with current observations by yielding a reliable and accurate account of the universe's expansion history.
format Preprint
id arxiv_https___arxiv_org_abs_2601_03116
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle A Bayesian Statistical Study of Bianchi Type-I Universe in $f(R,T^ψ)$ Modified Gravity
Thakre, Mohit
Dhankar, Praveen Kumar
Islam, Safiqul
Sahoo, Parbati
Rahaman, Farook
Pourhassan, Behnam
General Relativity and Quantum Cosmology
We have examined the cosmological actions of LRS (Locally Rationally Symmetric) Bianchi type-I universe model in $f(R,T^ψ)$ gravity. For this, we have estimated the Hubble parameter, the effective equation of state parameter ($ω^{eff}$), and the potential of the scalar field as a function of time using equation $H = W(ψ)$. The graphical representation of the potential function $V(ψ)$ with respect to cosmic time t is described. This study explores the dynamical properties of a Bianchi Type-I universe by utilizing Bayesian statistical techniques to constrain the model parameters and evaluate the viability of anisotropic cosmology under extended matter-geometry couplings. Also, we have applied the Markov Chain Monte Carlo (MCMC) mechanism on the derived $H(z)$ model by using observational Hubble data (OHD), the Baryon Acoustic Oscillation (BAO) dataset, and the Pantheon dataset. From the confidence-level contours and best-fit parameter values obtained, along with the corresponding reduced $χ^{2}$, it is evident that the model aligns strongly with observational data, demonstrating statistical stability and consistency in describing late-time cosmic acceleration. Likewise, the error analyses presented in this research, including a comparison between the $Λ$CDM cosmology and the reconstructed $H(z)$ model, confirm the model's compatibility with current observations by yielding a reliable and accurate account of the universe's expansion history.
title A Bayesian Statistical Study of Bianchi Type-I Universe in $f(R,T^ψ)$ Modified Gravity
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2601.03116