Anabalón, A., Maurelli, S., Oyarzo, M., & Trigiante, M. (2024). The Instability of Low-Temperature Black Holes in Gauged N = 8 Supergravity. arXiv:2411.09454v1 [hep-th].
This study examines the thermodynamic stability of planar black hole solutions within the framework of the STU model in gauged N=8 supergravity. The authors aim to determine the stability conditions for both electrically and magnetically charged black holes, focusing on the behavior of these solutions at low temperatures.
The authors employ analytical techniques from general relativity and supergravity to derive the equation of state for both electric and magnetic planar black holes. They analyze the Hessian matrix of the energy density to assess the stability of these solutions. For electric black holes, they calculate the determinant of the Hessian to identify instability regions. For magnetic black holes, they incorporate the topological twist condition and introduce a shifted energy definition to investigate stability, particularly in the context of BPS solutions.
The research demonstrates a fundamental difference in the thermodynamic stability of electric and magnetic planar black holes in the STU model of gauged N=8 supergravity. While electric black holes exhibit inherent instability below a critical temperature, magnetic black holes can achieve stability under specific conditions related to the topological twist and a shifted energy definition.
This study contributes significantly to the understanding of black hole thermodynamics in the context of extended supergravity theories. The findings have implications for the study of black hole stability, the AdS/CFT correspondence, and the development of a consistent quantum theory of gravity.
The analysis primarily focuses on planar black hole solutions within a specific supergravity model. Further research could explore the stability of black holes with different horizon topologies and in more general supergravity theories. Investigating the implications of these findings for the AdS/CFT correspondence and the microscopic interpretation of black hole entropy would also be of significant interest.
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by Andr... lúc arxiv.org 11-15-2024
https://arxiv.org/pdf/2411.09454.pdfYêu cầu sâu hơn