Stability of thin-shell wormholes via polymer black hole in loop quantum gravity

IF 5 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Physics of the Dark Universe Pub Date : 2024-08-06 DOI:10.1016/j.dark.2024.101605

Faisal Javed , Arfa Waseem , Ghulam Fatima , Bander Almutairi

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Abstract

The focus of this work is to examine the dynamical behavior of thin-shell wormholes developed from the polymer black hole in loop quantum gravity. Such geometrical structure is formulated by considering the cut and paste approach to avoid the appearance of singularity as well as the position of the horizon. Then, we are interested in exploring the impact of different types of matter contents on the stable configurations of the shell using linearized radial perturbation. It is observed that the quantum term $Θ_{k}$ possesses a marvelous role in obtaining the stability of the shell. For the choice of variable phantomlike model, we find the stability for some specific values of $n$ by applying the constraints $0 < Θ_{k} < M^{2}$ . In the literature, many researchers find stability for some specific ranges of $n$ . In the presence of $Θ_{k}$ , the thin-shell wormhole becomes stable for the variable Chaplygin gas model for all choices of $n$ as compared to phantomlike and barotropic equations of state. As $Θ_{k}$ approaches to $M^{2}$ , we get the maximum stable behavior for all positive values of the variable $n$ for the choice of variable Chaplygin gas model.

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这项工作的重点是研究环量子引力中由聚合物黑洞发展而来的薄壳虫洞的动力学行为。这种几何结构是通过考虑剪切和粘贴的方法来避免奇点的出现以及地平线的位置而形成的。然后，我们有兴趣利用线性化径向扰动探索不同类型物质含量对外壳稳定构型的影响。研究发现，量子项在获得壳的稳定性方面发挥了重要作用。对于可变幻象模型的选择，我们通过应用约束条件找到了某些特定值的稳定性。在文献中，许多研究者发现了在某些特定范围内的稳定性。与幻象和气压状态方程相比，在存在、、的情况下，薄壳虫洞在所有选择的可变查普利金气体模型中都变得稳定。当接近于，我们就会得到在变量查普利金气体模型的所有正值下的最大稳定行为。

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来源期刊

Physics of the Dark Universe ASTRONOMY & ASTROPHYSICS-

CiteScore

9.60

自引率

7.30%

发文量

118

审稿时长

61 days

期刊介绍： Physics of the Dark Universe is an innovative online-only journal that offers rapid publication of peer-reviewed, original research articles considered of high scientific impact. The journal is focused on the understanding of Dark Matter, Dark Energy, Early Universe, gravitational waves and neutrinos, covering all theoretical, experimental and phenomenological aspects.