Thermal chaos of charged-flat black hole via Rényi formalism

IF 2.5 3区物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS Nuclear Physics B Pub Date : 2024-06-21 DOI:10.1016/j.nuclphysb.2024.116606

F. Barzi , H. El Moumni , K. Masmar

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Abstract

Charged-flat black holes in the Rényi extended phase space demonstrate phase structures akin to those of a van der Waals fluid in four-dimensional spacetime and mirror the behaviors of Reissner-Nordstrom-Anti-de-Sitter black holes within the standard Gibbs-Boltzmann extended phase space. This study delves into the dynamics of states initially positioned within the unstable spinodal region of the phase space associated with the charged-flat black hole when subjected to time-periodic thermal perturbations. Our analysis based on the Mel'nikov method reveals that chaos emerges when the δ parameter surpasses a critical threshold, $δ_{c}$ . This critical quantity is dependent on the black hole charge; notably, a larger value of Q impedes the onset of chaos.

Furthermore, we examine the effects of space-periodic thermal perturbations on its equilibrium state and find that chaos invariably occurs, irrespective of the perturbation amplitude. Hence, the chaotic dynamics observed in the analysis of charged-flat black holes under Rényi statistics exhibit resemblances to those of asymptotically AdS-charged black holes investigated via the Gibbs-Boltzmann formalism. This serves as yet another example of a potential and significant connection between the cosmological constant and the nonextensivity Rényi parameter.

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通过雷尼形式主义看带电扁平黑洞的热混沌

雷尼扩展相空间中的带电扁平黑洞显示出类似于四维时空中范德华流体的相结构，并反映了标准吉布斯-波兹曼扩展相空间中赖斯纳-诺德斯特伦-反德-西特黑洞的行为。本研究深入探讨了带电扁平黑洞在受到时间周期性热扰动时，最初位于相空间不稳定自旋区域内的状态的动力学。我们基于梅尔尼科夫方法的分析表明，当δ参数超过临界阈值δc时，就会出现混沌。此外，我们还研究了空间周期性热扰动对其平衡态的影响，发现无论扰动幅度如何，混沌都会发生。因此，在雷尼统计下分析带电扁平黑洞时观察到的混沌动力学与通过吉布斯-玻尔兹曼形式主义研究的渐近 AdS 带电黑洞的混沌动力学非常相似。这再次证明了宇宙学常数和雷尼参数的非膨胀性之间潜在的重要联系。

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

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.

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