Thermodynamic Topology of Black Holes in f(R) Gravity

Hazarika, Bidyut; Phukon, Prabwal

doi:10.1093/ptep/ptae035

Progress of Theoretical and Experimental Physics

2024

DOI: 10.1093/ptep/ptae035

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Thermodynamic Topology of Black Holes in f(R) Gravity

Bidyut Hazarika,

Prabwal Phukon

Abstract: In this work, we study the thermodynamic topology of a static, a charged static and a charged, rotating black hole in f(R) gravity. For charged static black holes, we work in two different ensembles: fixed charge(q) ensemble and fixed potential(φ) ensemble. For charged, rotating black hole, four different types of ensembles are considered: fixed (q, J), fixed (φ, J), fixed (q, Ω) and fixed (φ, Ω) ensemble, where J and Ω denotes the angular momentum and the angular frequency respectively. Using the generalized … Show more

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2024

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Cited by 7 publications

References 141 publications

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Topological classes of thermodynamics of the static multi-charge AdS black holes in gauged supergravities: novel temperature-dependent thermodynamic topological phase transition

Wu,

Gu,

Zhu

et al. 2024

J. High Energ. Phys.

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In this paper, we investigate, in the framework of the topological approach to black hole thermodynamics, using the generalized off-shell Helmholtz free energy, the topological numbers of the static multi-charge AdS black holes in four- and five-dimensional gauged supergravities. We find that the topological number of the static-charged AdS black holes in four-dimensional Kaluza-Klein (K-K) gauged supergravity theory is W = 0, while that of the static-charged AdS black holes in four-dimensional gauged –iX0X1-supergravity and STU gauged supergravity theories, and five-dimensional Einstein-Maxwell-dilaton-axion (EMDA) gauged supergravity and STU gauged supergravity, and five-dimensional static-charged AdS Horowitz-Sen black hole are both W = 1. Furthermore, we observe a novel temperature-dependent thermodynamic topological phase transition that can happen in the four-dimensional static-charged AdS black hole in EMDA gauged supergravity theory, the four-dimensional static-charged AdS Horowitz-Sen black hole, and the five-dimensional static-charged AdS black hole in K-K gauged supergravity theory. We believe that the novel temperature-dependent thermodynamic topological phase transition could help us better understand black hole thermodynamics and, further, shed new light on the fundamental nature of gauged supergravity theories.

show abstract

Topological classes of thermodynamics of the static multi-charge AdS black holes in gauged supergravities: novel temperature-dependent thermodynamic topological phase transition

Wu,

Gu,

Zhu

et al. 2024

J. High Energ. Phys.

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show abstract

Topological properties of black holes in five-dimensional gauged supergravity

He,

Lei,

Chen

2024

Nuclear Physics B

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Schottky anomaly of the Kalb-Ramond-de Sitter spacetime

Ma,

Zheng,

et al. 2024

Nuclear Physics B

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Thermodynamic Topology of Black Holes in f(R) Gravity

Cited by 7 publications

References 141 publications

Topological classes of thermodynamics of the static multi-charge AdS black holes in gauged supergravities: novel temperature-dependent thermodynamic topological phase transition

Topological classes of thermodynamics of the static multi-charge AdS black holes in gauged supergravities: novel temperature-dependent thermodynamic topological phase transition

Topological properties of black holes in five-dimensional gauged supergravity

Schottky anomaly of the Kalb-Ramond-de Sitter spacetime

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