Stellar models with like-Wyman IIa complexity factor

Journal of Physics: Conference Series Pub Date : 2024-07-01 DOI:10.1088/1742-6596/2796/1/012007
J. Andrade, D. Andrade
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Abstract

The goal of this work is to build a new family of stellar interior solutions in the anisotropic regime of pressure using the framework of gravitational decoupling via minimal geometric deformation. For such purpose, we use a generalization of the complexity factor of the well-known Wyman IIa (n = 1) interior solution in order to close the Einstein’s Field Equations, as well we use the Wyman IIa, Tolman IV, and Heintzmann IIa and Durgapal IV models as seeds solutions. These models fulfill the fundamental physical acceptability conditions for the compactness factor of the system 4U 1820-30. Stability against convection and against collapse are also studied.
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具有类似韦曼 IIa 复杂因子的恒星模型
这项工作的目标是通过最小几何变形,利用引力解耦框架,在压力各向异性机制下建立一个新的恒星内部解系列。为此,我们使用了著名的怀曼 IIa(n = 1)内部解的复杂性系数的广义化来关闭爱因斯坦场方程,并使用怀曼 IIa、托尔曼 IV、海因茨曼 IIa 和杜尔加帕尔 IV 模型作为种子解。这些模型符合 4U 1820-30 系统紧凑系数的基本物理可接受性条件。还研究了对流和坍缩的稳定性。
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Journal of Physics: Conference Series
Journal of Physics: Conference Series
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