Some specific wormhole solutions in extended f(R,G,T) gravity

IF 1.8 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
M. Ilyas, A. R. Athar, Fawad Khan, Nasreen Ghafoor, Haifa I. Alrebdi, Kottakkaran Sooppy Nisar, Abdel-Haleem Abdel-Aty
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引用次数: 0

Abstract

This research work provides an exhaustive investigation of the viability of different coupled wormhole (WH) geometries with the relativistic matter configurations in the f(R,G,T) extended gravity framework. We consider a specific model in the context of f(R,G,T)-gravity for this purpose. Also, we assume a static spherically symmetric spacetime geometry and a unique distribution of matter with a set of shape functions (β(r)) for analyzing different energy conditions. In addition to this, we examined WH-models in the equilibrium scenario by employing anisotropic fluid. The corresponding results are obtained using numerical methods and then presented using different plots. In this case, f(R,G,T) gravity generates additional curvature quantities, which can be thought of as gravitational objects that maintain irregular WH-situations. Based on our findings, we conclude that in the absence of exotic matter, WH can exist in some specific regions of the parametric space using modified gravity model as f(R,G,T)=R+αR2+βGn+γGln(G)+λT.

扩展 f(R,G,T) 引力中的一些具体虫洞解决方案
这项研究工作对在 f(R,G,T) 扩展引力框架内不同耦合虫洞(WH)几何与相对论物质构型的可行性进行了详尽的研究。为此,我们考虑了f(R,G,T)引力背景下的一个特定模型。同时,我们假定了静态球对称时空几何和独特的物质分布,并用一组形状函数(β(r))来分析不同的能量条件。此外,我们还采用各向异性流体研究了平衡情景下的 WH 模型。使用数值方法获得了相应的结果,并通过不同的图表进行了展示。在这种情况下,f(R,G,T) 引力会产生额外的曲率量,可以将其视为维持不规则 WH 位置的引力物体。根据我们的研究结果,我们得出结论:在没有奇异物质的情况下,WH 可以存在于参数空间的某些特定区域,其修正引力模型为 f(R,G,T)=R+αR2+βGn+γGln(G)+λT 。
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来源期刊
International Journal of Modern Physics D
International Journal of Modern Physics D 地学天文-天文与天体物理
CiteScore
3.80
自引率
9.10%
发文量
181
审稿时长
4-8 weeks
期刊介绍: Gravitation, astrophysics and cosmology are exciting and rapidly advancing fields of research. This journal aims to accommodate and promote this expansion of information and ideas and it features research papers and reviews on theoretical, observational and experimental findings in these fields. Among the topics covered are general relativity, quantum gravity, gravitational experiments, quantum cosmology, observational cosmology, particle cosmology, large scale structure, high energy astrophysics, compact objects, cosmic particles and radiation.
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