ModMax-AdS Black Hole with Global Monopole as Source in Kalb-Ramond Gravity

TL;DR

This paper explores the thermodynamics, criticality, radiation, and optical properties of a ModMax-AdS black hole with a global monopole in Kalb-Ramond gravity, revealing how geometric parameters influence these phenomena.

Contribution

It provides a comprehensive analysis of thermodynamic behavior, critical points, and optical features of this specific black hole model, including entropy corrections and parameter effects.

Findings

Modified inversion temperature due to geometric parameters

Influence of parameters on black hole shadow and photon sphere

Altered thermodynamic criticality and phase transition behavior

Abstract

In this work, we investigate in detail the thermodynamic properties of a spherically symmetric ModMax-AdS black hole sourced by a global monopole within the Kalb-Ramond gravity. We derive the key thermodynamic quantities, including the Hawking temperature, Gibbs free energy, and specific heat capacity, and analyze how the geometric parameters influence these physical quantities. The first law of thermodynamics and the corresponding Smarr formula are explicitly verified. Furthermore, we study the thermodynamic criticality of the system by deriving the critical points and examining the effects of the space-time geometric parameters. We also obtain the inversion temperature and demonstrate that the minimum inversion temperature is modified by the space-time parameters. In addition, the sparsity of Hawking radiation and thermal fluctuations of the system are investigated, highlighting the effects of the parameters on the entropy corrections. Finally, we analyze the optical properties of the black hole, in particular the photon sphere and shadow radius, showing how these parameters influence these features.