Light rings and shadows of static black holes in effective quantum gravity

IF 4.3 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Physics Letters B Pub Date : 2024-10-02 DOI:10.1016/j.physletb.2024.139052
Wentao Liu , Di Wu , Jieci Wang
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Abstract

Recently, two types of static black hole models that retain general covariance have been proposed within the Hamiltonian constraint approach to effective quantum gravity (EQG). We have studied the light rings and shadows of these black holes using the topological method and the backward ray-tracing method, respectively. We demonstrate that these light rings in both types of static black holes are standard and unstable according to the classification of light rings. Subsequently, we checked the position of the light rings using the photon trajectory equation. We found that although the quantum parameters do not affect the light rings of these two types of black holes, they do reduce the size of the first type of static black hole in EQG, making it smaller. However, for the second type of static black hole in EQG, we cannot distinguish it from a Schwarzschild black hole based on the shadow alone. Fortunately, the quantum parameters shrink the lensing rings of both types of black holes in EQG, causing the black hole shadow to occupy a larger proportion within the ring. This can serve as a basis for distinguishing whether the black hole is in EQG or general relativity (GR).
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有效量子引力中静态黑洞的光环和阴影
最近,在有效量子引力(EQG)的哈密顿约束方法中提出了两类保留广义协变的静态黑洞模型。我们分别用拓扑方法和后向射线追踪方法研究了这些黑洞的光环和阴影。我们证明,根据光环的分类,这两类静态黑洞中的光环都是标准的和不稳定的。随后,我们利用光子轨迹方程检验了光环的位置。我们发现,虽然量子参数并不影响这两类黑洞的光环,但它们确实缩小了第一类静态黑洞在 EQG 中的尺寸,使其变得更小。然而,对于EQG中的第二种静态黑洞,我们无法仅凭阴影将其与施瓦兹柴尔德黑洞区分开来。幸运的是,量子参数缩小了EQG中两类黑洞的透镜环,使得黑洞阴影在环内所占的比例增大。这可以作为区分黑洞是在EQG还是广义相对论(GR)中的依据。
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来源期刊
Physics Letters B
Physics Letters B 物理-物理:综合
CiteScore
9.10
自引率
6.80%
发文量
647
审稿时长
3 months
期刊介绍: Physics Letters B ensures the rapid publication of important new results in particle physics, nuclear physics and cosmology. Specialized editors are responsible for contributions in experimental nuclear physics, theoretical nuclear physics, experimental high-energy physics, theoretical high-energy physics, and astrophysics.
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