Joule–Thomson expansion of black holes in STU supergravity

Sekhmani, Yassine; Myrzakulov, Ratbay; Ali, Riasat

doi:10.1142/s0217751x23501762

Int. J. Mod. Phys. A

2023

DOI: 10.1142/s0217751x23501762

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Joule–Thomson expansion of black holes in STU supergravity

Yassine Sekhmani,

Ratbay Myrzakulov,

Riasat Ali

Abstract: In this research paper, we study the Joule–Thomson (JT) expansion of the STU black hole with a higher number of electric charges arranged within the parameter space [Formula: see text]. The study involves revealing the charge effect on the JT expansion in the case of four/three equal/unequal charge configurations. The process of JT expansion consists of analyzing the inversion and isenthalpic curves to describe the heating and cooling zones. In relation to the associated inversion curves, the findings show tha… Show more

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2024

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Cited by 2 publications

References 61 publications

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Holographic thermodynamics of BTZ black holes and Tsallis entropy

Ladghami,

Asfour,

Bouali

et al. 2024

Physics of the Dark Universe

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Holographic thermodynamics of BTZ black holes and Tsallis entropy

Ladghami,

Asfour,

Bouali

et al. 2024

Physics of the Dark Universe

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FourSTUblack holes shadows

Sekhmani,

Jyoti Gogoi,

Myrzakulov

et al. 2024

Class. Quantum Grav.

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In this work, we examine the optical behaviors and thermodynamic phase structures using shadow analysis for four $\mathbb{S}\mathbb{T}\mathbb{U}$ black holes. The study is conducted for four cases of charge configurations on the parameter space $\mathcal{M}\left(q_1,q_2,q_3,q_4\right)$. As a matter of fact, both the electric charge as a parameter and the parameter space $\mathcal{M}\left(q_1,q_2,q_3,q_4\right)$ affect the geometry of the black hole shadow, particularly the size of the shadow. We also introduce a constraint on the charge of the black hole from the observational results of the M87$^\star$ {\color{red}and Sgr A$^\star$} shadow. Furthermore, we show that the electric charge and the parameter space $\mathcal{M}\left(q_1,q_2,q_3,q_4\right)$ have a non-trivial impact on the variation of the energy emission rate. Interestingly enough, we find novel scenarios in which the evaporation is slower, which causes the lifetime of the black holes to be considerably elongated. On the other side, the phase structure of four $\mathbb{S}\mathbb{T}\mathbb{U}$ black holes is explored for two cases of electric charge configuration. The findings show a perfect correlation between the shadow and event horizon radii. This correlation is, in fact, helpful in discovering the phase transition in terms of the shadow radius. In addition, the microstructure is being analyzed in terms of shadow analysis, providing similar behavior to the ordinary situation of the Ruppeiner formalism.

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Joule–Thomson expansion of black holes in STU supergravity

Cited by 2 publications

References 61 publications

Holographic thermodynamics of BTZ black holes and Tsallis entropy

Holographic thermodynamics of BTZ black holes and Tsallis entropy

FourSTUblack holes shadows

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