Near-horizon chaos beyond Einstein gravity

arXiv - PHYS - Chaotic Dynamics Pub Date : 2024-05-16 DOI:arxiv-2405.09945

Surajit Das, Surojit Dalui, Rickmoy Samanta

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Abstract

We investigate chaos in the dynamics of outgoing massless particles near the horizon of static spherically symmetric (SSS) black holes in two well-motivated models of $f(R)$ gravity. In both these models, we probe chaos in the particle trajectories (under suitable harmonic confinement) in the vicinity of the black hole horizons, for a set of initial conditions. The particle trajectories, associated Poincar$\acute{e}$ sections, and Lyapunov exponents clearly illustrate the role played by the black hole horizon in the growth of chaos within a specific energy range. We demonstrate how this energy range is controlled by the parameters of the modified gravity theory under consideration. The growth of chaos in such a classical setting is known to respect a surface gravity bound arising from universal aspects of particle dynamics close to the black hole horizon [K. Hashimoto and N. Tanahashi, Phys. Rev. D 95, 024007 (2017)], analogous to the quantum MSS bound [J. Maldacena, S.H. Shenker and D. Stanford, JHEP 08 (2016) 106]. Interestingly, both models studied in our work respect the bound, in contrast to some of the other models of $f(R)$ gravity in the existing literature. The work serves as a motivation to use chaos as an additional tool to probe Einstein gravity in the strong gravity regime in the vicinity of black hole horizons.

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超越爱因斯坦引力的近地平线混沌

我们在两个动机良好的 $f(R)$ 引力模型中研究了静态球对称（SSS）黑洞视界附近出射无质量粒子动力学中的混沌。在这两个模型中，我们在一组初始条件下探测了黑洞视界附近粒子轨迹（在适当的谐波约束下）的混沌。粒子轨迹、相关的Poincar$\acute{e}$截面和Lyapunov指数清楚地表明了黑洞视界在特定能量范围内的混沌增长中所起的作用。我们证明了这一能量范围是如何被所考虑的修正引力理论的参数所控制的。众所周知，在这样的经典环境中，混沌的增长要尊重由靠近黑洞视界的粒子动力学的普遍方面所产生的表面引力约束[K. Hashimoto and N. Tanahashi, Phys.Rev. D 95, 024007 (2017)]，类似于量子 MSS 约束[J. Maldacena,S.H. Shenker and D. Stanford, JHEP 08 (2016) 106]。有趣的是，我们工作中研究的两个模型都遵守了这个约束，这与现有文献中的其他一些 $f(R)$ 引力模型形成了鲜明对比。这项工作促使我们把混沌作为一种额外的工具，来探测黑洞视界附近强引力体系中的爱因斯坦引力。

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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arXiv - PHYS - Chaotic Dynamics

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