通过托尔曼 IV 解决方案建立恒星模型:大质量脉冲星J0740+6620和HESS J1731-347紧凑天体的案例

IF 2.5 4区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Universe Pub Date : 2024-08-27 DOI:10.3390/universe10090342
Grigoris Panotopoulos
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引用次数: 0

摘要

我们模拟了在爱因斯坦引力下由各向同性物质构成的已知恒星质量和半径的紧凑天体。我们在整个手稿中使用的描述流体静力学平衡的内部解对应于很久以前获得的托尔曼 IV 精确解析解。解的三个自由参数是通过对已知恒星质量和半径的天体施加匹配条件来确定的。最后,利用已确立的标准证明,与 Kohler Chao 解法相反,Tolman IV 解法符合所有关于良好和现实解法的要求,除了在恒星表面发散的相对论绝热指数。指数Γ的发散是可以解决的,包括假设一个多热状态方程的薄壳,这正是中子星研究中出现的情况。据我们所知,我们在这里首次通过托尔曼IV解为最近发现的大质量脉冲星PSR J0740+6620和奇轻的HESS紧凑天体建立了模型。这项工作可能会引起模型建立者的兴趣,并为今后的研究提供有益的参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stellar Modeling via the Tolman IV Solution: The Cases of the Massive Pulsar J0740+6620 and the HESS J1731-347 Compact Object
We model compact objects of known stellar mass and radius made of isotropic matter within Einstein’s gravity. The interior solution describing hydrostatic equilibrium we are using throughout the manuscript corresponds to the Tolman IV exact analytic solution obtained a long time ago. The three free parameters of the solutions are determined by imposing the matching conditions for objects of known stellar mass and radius. Finally, using well established criteria, it is shown that, contrary to the Kohler Chao solution, the Tolman IV solution is compatible with all requirements for well-behaved and realistic solutions, except for the relativistic adiabatic index that diverges at the surface of stars. The divergence of the index Γ may be resolved, including a thin crust assuming a polytropic equation of state, which is precisely the case seen in studies of neutron stars. To the best of our knowledge, we model here for the first time the recently discovered massive pulsar PSR J0740+6620 and the strangely light HESS compact object via the Tolman IV solution. The present work may be of interest to model builders as well as a useful reference for future research.
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来源期刊
Universe
Universe Physics and Astronomy-General Physics and Astronomy
CiteScore
4.30
自引率
17.20%
发文量
562
审稿时长
24.38 days
期刊介绍: Universe (ISSN 2218-1997) is an international peer-reviewed open access journal focused on fundamental principles in physics. It publishes reviews, research papers, communications, conference reports and short notes. Our aim is to encourage scientists to publish their research results in as much detail as possible. There is no restriction on the length of the papers.
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