Structural properties of a new class of stellar structures in modified teleparallel gravity

IF 2.6 3区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Frontiers in Astronomy and Space Sciences Pub Date : 2023-09-27 DOI:10.3389/fspas.2023.1203777

Aylin Caliskan, Rana Muhammad Zulqarnain, Ertan Güdekli, Imran Siddique, Hijaz Ahmad, Sameh Askar

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Abstract

This paper explores new neutron star models based on spherically symmetric space–time. We take into account the gravitational effects of f(T,T) gravity, in which T is the torsion and T is the trace of the energy–momentum tensor. Field equations are evaluated by incorporating the off-diagonal tetrad. In this paper, we discuss the detailed properties of compact star candidates 4 U 1538–52, J 0437–4,715, J 0030 + 0451, and 4 U 1820–30, like energy density, pressure profiles, gradients, anisotropy, energy conditions, equation of state, speeds of sound, TOV equation, and compactification parameters. We discuss all these characteristics using the quadratic cosmological model of f(T,T) gravity. We use the well-famed junction equations to evaluate the unknown parameters. Our detailed and comprehensive graphical analysis ensures that the model containing the anisotropic nature of stellar structures is physically acceptable, regular, and stable.

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修正遥平行引力下一类新的恒星结构的结构特性

本文探索了基于球对称时空的中子星模型。我们考虑f(T,T)重力的引力效应，其中T是扭转，T是能量动量张量的轨迹。通过结合非对角线四分体来计算场方程。本文讨论了4 U 1538-52、J 0437 - 4715、J 0030 + 0451和4 U 1820-30候选紧致恒星的能量密度、压力分布、梯度、各向异性、能量条件、状态方程、声速、TOV方程和紧致参数等详细性质。我们使用f(T,T)引力的二次宇宙学模型来讨论所有这些特征。我们使用著名的结点方程来计算未知参数。我们详细而全面的图形分析确保了包含恒星结构各向异性性质的模型在物理上是可接受的、规则的和稳定的。

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