Thermodynamics of Asymptotically Flat Black Holes in Lovelock Background
N. Abbasvandi, M. J. Soleimani, Shahidan Radiman, and W.A.T. Wan, Abdullah
TL;DR
This paper investigates how Lovelock coupling constants influence the thermodynamics of asymptotically flat static black holes across 5 to 7 dimensions, considering second and third order effects.
Contribution
It introduces a detailed analysis of the impact of second and third order Lovelock coupling constants on black hole thermodynamics in higher dimensions.
Findings
Coupling constants significantly affect black hole thermodynamics.
Thermodynamic properties vary with spacetime dimensionality.
Higher-order Lovelock terms modify black hole stability and phase structure.
Abstract
We study the thermodynamics of the asymptotically flat static black hole in Lovelock back ground where the coupling constants of the Lovelock theory effects are taken into account. We consider the effects of the second order of the coupling constant, and third order of the Lovelock constant coefficient on the thermodynamics of asymptotically flat static black holes. In this case the effect of the coupling constants on the thermodynamics of the black hole are discussed for 5, 6, and 7 dimensional spacetime.
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Taxonomy
TopicsBlack Holes and Theoretical Physics · Cosmology and Gravitation Theories · Astrophysical Phenomena and Observations