Structure of Spin Polarized Strange Quark Star in the Presence of Magnetic Field at Finite Temperature

TL;DR

This study investigates the thermodynamic properties and structure of spin polarized strange quark stars under strong magnetic fields at finite temperatures using the MIT bag model, providing insights into their equation of state and stability.

Contribution

It introduces a detailed analysis of spin polarized strange quark matter's thermodynamics and star structure considering magnetic fields and temperature effects, which is novel.

Findings

Equation of state for spin polarized strange quark matter derived.

Star structure varies significantly with temperature and magnetic field.

Magnetic field influences stability and mass-radius relations.

Abstract

In this paper, we have calculated the thermodynamic properties of spin polarized strange quark matter at finite temperature in the presence of a strong magnetic field using MIT bag model. We have also computed the equation of state of spin polarized strange quark matter in the presence of strong magnetic field and finally, using this equation of states we have investigated the structure of spin polarized strange quark star at different temperatures and magnetic fields.