Abstract Recently a non-trivial 4-dimensional theory of gravity that claims to circumvent Lovelock's theorem and avoid Ostrogradsky instability was formulated in Glavan and Lin (2020) [1] . This theory, named “4D Einstein Gauss-Bonnet gravity”, presents several novel predictions for cosmology and black hole physics. In this paper, we generalize the vacuum black hole solution of Glavan & Lin to include electric charge in an anti-de Sitter space and explore some properties of this solution such as the asymptotics, properties of the horizons, the general relativity limit and thermodynamics.

中文翻译：

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4D Einstein Gauss-Bonnet 引力中 AdS 空间中的带电黑洞

摘要 最近，Glavan 和 Lin (2020) [1] 提出了一个非平凡的 4 维引力理论，该理论声称可以绕过 Lovelock 定理并避免 Ostrogradsky 不稳定性。这个名为“4D Einstein Gauss-Bonnet 引力”的理论为宇宙学和黑洞物理学提供了几个新的预测。在本文中，我们将 Glavan & Lin 的真空黑洞解推广到反德西特空间中包含电荷，并探索了该解的一些性质，如渐近性、视界性质、广义相对论极限和热力学。