Anisotropic gravastar as horizonless regular black hole spacetime and its images illuminated by thin accretion disk

IF 4.2 2区物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS The European Physical Journal C Pub Date : 2024-11-15 DOI:10.1140/epjc/s10052-024-13519-6

M. F. Fauzi, H. S. Ramadhan, A. Sulaksono

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Abstract

A connection between regular black holes and horizonless ultracompact objects was proposed in Carballo-Rubio et al. (JHEP 08:046, 2023, arXiv:2211.05817 [gr-qc]). In this paper, we construct a model of a horizonless compact object, specifically an anisotropic gravastar with continuous pressure, that corresponds to regular black hole spacetime in the appropriate limit. The construction begins by modeling an equation of state that satisfies the anisotropic gravastar conditions and transitions to the de Sitter (\(p=-\epsilon \)) upon horizon formation. The spacetime structure is similar to the Quantum Horizonless Compact Object (QHCO) described in Chen and Yokokura (Phys Rev D 109:104058, 2024, arXiv:2403.09388 [gr-qc]). Within this model, we also generate images of the corresponding objects surrounded by a thin accretion disk. The resulting images reveal that assuming that the emitting matter exists only outside the object, the inner light ring structure closely resembles that of the horizonless configuration of a regular black hole and the QHCO, yet it exhibits a distinct light ring structure compared to the thin-shell gravastar model. However, the opposite occurs when emitting matter is taken into account inside the object.

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作为无地平线规则黑洞时空的各向异性引力星及其被薄吸积盘照亮的图像

Carballo-Rubio 等（JHEP 08:046, 2023, arXiv:2211.05817 [gr-qc]）提出了规则黑洞与无地平线超紧密天体之间的联系。在本文中，我们构建了一个无视界紧凑天体模型，特别是一个具有连续压力的各向异性引力星，它在适当的极限中对应于规则的黑洞时空。构建模型首先要建模一个满足各向异性引力星条件的状态方程，并在地平线形成时过渡到德西特（\(p=-\epsilon \））。这种时空结构类似于陈和横仓（Phys Rev D 109:104058, 2024, arXiv:2403.09388 [gr-qc]）描述的量子无地平线紧凑物体（QHCO）。在这个模型中，我们还生成了被薄吸积盘包围的相应天体的图像。生成的图像显示，假设发射物质只存在于天体外部，内部光环结构与普通黑洞和 QHCO 的无视界构型非常相似，但与薄壳引力星模型相比，它表现出明显的光环结构。然而，当考虑到天体内部的发射物质时，情况却恰恰相反。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The European Physical Journal C 物理-物理：粒子与场物理

CiteScore

8.10

自引率

15.90%

发文量

1008

审稿时长

2-4 weeks

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