线性 f(Q)作用下的各向异性紧凑星体

S. Maurya, Abdelghani Errehymy, G. Vîlcu, H. Alrebdi, K. S. Nisar, A. Abdel‐Aty
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引用次数: 0

摘要

本文在理解紧凑恒星系统和修正的 $f(Q)$ 引力理论方面实现了重大飞跃。该发现的关键在于成功推导出了满足静态几何和球面对称标准的精确解,从而可以研究具有各向异性流体的紧凑恒星构型。该模型经过严格测试,满足恒星流体内部的重要物理条件,保证了其可行性。等质量等值线凸显了 $f(Q)$ 重力参数之间令人印象深刻的相关性。在保持$\beta$固定的同时提高$\alpha$并同时提高$R$会导致质量分布的全面提升。这可以归因于更高的 $\alpha$ 带来的耦合增强,从而扩大了质量分布。此外,由于 $R$ 的升高,天体体积增大,从而可以容纳更多的质量。因此,同时提高 $R$ 和 $\alpha$ 会导致夸张的质量分布,这证明了耦合强度和物体大小对总质量的共同影响。总之,这项研究推进了我们对紧凑恒星系统的认识,支持了修正的$f(Q)$引力理论的演化,为这一领域的更多突破开辟了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anisotropic compact star in linear f(Q)-action
In this paper, a significant leap forward in understanding compact stellar systems and the modified $f(Q)$ gravity theory is achieved. The pivotal discovery lies in the successful derivation of an exact solution that fulfills the static geometry and spherical symmetry criteria, permitting the studying of compact stellar configurations with an anisotropic fluid. The model is rigorously tested and satisfies the vital physical conditions within the stellar fluid, guaranteeing its viability. The equi-mass contours highlight an impressive correlation between the $f(Q)$ gravity parameters. Boosting $\alpha$ while keeping $\beta$ fixed and concurrently boosting $R$ leads to a significant global boost in mass distribution. This can be ascribed to the enhanced coupling arising from a higher $\alpha$, which broadens the mass distribution. In addition, the larger object size arising from the rise in $R$ allows for more mass accommodation. Therefore, raising both $R$ and $\alpha$ leads to an exaggerated mass distribution, proving the combined influence of coupling strength and object size on total mass. Altogether, this investigation advances our knowledge of compact stellar systems and supports the evolution of the modified $f(Q)$ theory of gravity, opening the way for more breakthroughs in this field.
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