Frozen Bardeen-Dirac stars and light ball

IF 4.2 2区物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS

The European Physical Journal C Pub Date : 2025-03-28 DOI:10.1140/epjc/s10052-025-13929-0

Long-Xing Huang, Shi-Xian Sun, Yong-Qiang Wang

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引用次数: 0

Abstract

In this paper, we study solutions of a static spherically symmetric system, which is composed of the coupling with the Bardeen action and two Dirac fields. For the case where only the Bardeen action is present, the magnetic charge q can be infinite, then when the magnetic charge is greater than a certain value \(q_b\), there exists a black hole solution, which is called the Bardeen black hole (BBH). However, if the Dirac field is introduced, we find that the magnetic charge can only be smaller than the critical value \(q_b\), in which there is no black hole solution. Moreover, in the region \(q<q_b\), we find that if the magnetic charge exceeds another critical value \(q_c\) (i.e., \(q_c<q<q_b\)), the frequency of the Dirac field can approach zero, and the solution where a critical horizon appears is similar to an extremal black hole outside the critical horizon but has a nonsingular interior. The Dirac fields are also almost concentrated within it. In fact, this is a frozen star solution, we call such solutions frozen Bardeen-Dirac stars (FBDSs). We analyze the light rings of FBDSs and find that there exists a “true” light ring outside the critical horizon, but inside it, the velocity of photons is very close to zero, which leads to the formation of a “light ball” inside the critical horizon.

查看原文本刊更多论文

本文研究了一个静态球对称系统的解，该系统由巴丁作用和两个狄拉克场耦合组成。对于只有巴丁作用的情况，磁荷q可以是无限大的，那么当磁荷大于某个值\(q_b\)时，就存在一个黑洞解，我们称之为巴丁黑洞（BBH）。然而，如果引入狄拉克场，我们会发现磁荷只能小于临界值\(q_b\)，在这个临界值下不存在黑洞解。此外，在 \(q<q_b\)区域，我们发现如果磁荷超过另一个临界值 \(q_c\)（即 \(q_c<q<q_b\)），狄拉克场的频率可以趋近于零，出现临界视界的解类似于临界视界外的极值黑洞，但内部是非正弦的。狄拉克场也几乎集中在其内部。事实上，这是一种冻结星解，我们称这种解为冻结巴丁-狄拉克星（FBDS）。我们分析了 FBDSs 的光环，发现在临界视界外存在一个 "真正的 "光环，但在其内部，光子的速度非常接近于零，这导致在临界视界内形成一个 "光球"。

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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