Strange stars in $f(R,\mathcal{T})$ gravity

TL;DR

This paper models strange stars within $f(R, ext{T})$ gravity, deriving exact solutions and analyzing how matter-geometry coupling affects their physical properties, showing consistency with observational data and general relativity in the appropriate limit.

Contribution

It introduces a novel exact solution for strange stars in $f(R, ext{T})$ gravity using the MIT bag model EOS, exploring the impact of matter-geometry coupling on stellar characteristics.

Findings

Stars become more compact and less massive as $ ext{chi}$ increases.

Maximum mass remains within observational limits.

Model reduces to GR results when $ ext{chi}=0$.

Abstract

In this article we try to present spherically symmetric isotropic strange star model under the framework of $f(R,\mathcal{T})$ theory of gravity. To this end, we consider that the Lagrangian density is an arbitrary linear function of the Ricci scalar $R$ and the trace of the energy momentum tensor~$\mathcal{T}$ given as $f\left(R,\mathcal{T}\right)=R+2\chi T$. We also assume that the quark matter distribution is governed by the simplest form of the MIT bag model equation of state (EOS) as $p=\frac{1}{3}\left(\rho-4B\right)$, where $B$ is the bag constant. We have obtained an exact solution of the modified form of the the Tolman-Oppenheimer-Volkoff (TOV) equation in the framework of $f(R,\mathcal{T})$ gravity theory and studied the dependence of different physical properties, viz., total mass, radius, energy density and pressure on the chosen values of $\chi$. Further, to examine physical acceptability of the proposed stellar model in detail, we conducted different tests, viz. energy conditions, modified TOV equation, mass-radius relation, causality condition etc. We have precisely explained the effects arising due to the coupling of the matter and geometry on the compact stellar system. For a chosen value of the Bag constant we have predicted numerical values of different physical parameters in tabular format for the different strange stars. It is found that as the factor $\chi$ increases the strange stars shrink gradually and become less massive to turn into a more compact stellar system. The maximum mass point is well within the observational limits and hence our proposed model is suitable to explain the ultra dense compact stars. For $\chi=0$ we retrieve as usual the standard results of general relativity (GR).