On effective models of regular black holes inspired by higher-derivative and nonlocal gravity

IF 2.5 3区物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS Nuclear Physics B Pub Date : 2024-09-04 DOI:10.1016/j.nuclphysb.2024.116674

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Abstract

In this work we study static spherically symmetric solutions of effective field equations related to local and nonlocal higher-derivative gravity models, based on their associated effective delta sources. This procedure has been applied to generate modifications of the Schwarzschild geometry in several contexts (e.g., modified gravity, string theory, noncommutative geometry, generalized uncertainty principle scenarios), but a general analysis of the possible equations of state and their influence on the solutions was still lacking. Here, we aim to fill this gap in the literature and investigate whether these metrics might be able to reproduce features of the solutions of higher-derivative gravity models. In particular, we present an equation of state such that the solution matches the Newtonian-limit one in both regimes of large and small r. A significant part of the work is dedicated to studying the curvature regularity of the solutions and the comparison with the linearized solutions. Explicit metrics are presented for effective sources originating from local and nonlocal models. The results obtained here might be regarded as possible links between the previous research on linearized higher-derivative gravity and the solutions of the nonlinear complete field equations, which remain unknown at the moment.

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论受高阶衍生引力和非局部引力启发的规则黑洞有效模型

在这项工作中，我们基于相关的有效三角源，研究与局部和非局部高衍生引力模型有关的有效场方程的静态球对称解。这一过程已被用于在多种情况下（如修正引力、弦理论、非交换几何、广义不确定性原理情景）生成对施瓦兹柴尔德几何的修正，但仍缺乏对可能的状态方程及其对解的影响的一般性分析。在这里，我们旨在填补文献中的这一空白，研究这些度量是否能够再现高衍生引力模型解的特征。特别是，我们提出了一个状态方程，使得解在大、小 r 两种情况下都能与牛顿极限解相匹配。研究工作的很大一部分致力于研究解的曲率正则性以及与线性化解的比较。对于源于局部和非局部模型的有效源，提出了明确的度量。这里获得的结果可被视为先前线性化高派生引力研究与非线性完整场方程解之间的可能联系，而非线性完整场方程解目前仍是未知的。

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来源期刊

Nuclear Physics B 物理-物理：粒子与场物理

CiteScore

5.50

自引率

7.10%

发文量

302

审稿时长

1 months

期刊介绍： Nuclear Physics B focuses on the domain of high energy physics, quantum field theory, statistical systems, and mathematical physics, and includes four main sections: high energy physics - phenomenology, high energy physics - theory, high energy physics - experiment, and quantum field theory, statistical systems, and mathematical physics. The emphasis is on original research papers (Frontiers Articles or Full Length Articles), but Review Articles are also welcome.