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Analytic Electrically Charged Black Holes in F(<i>R</i>)-ModMax Theory

B. Eslam Panah

2024Progress of Theoretical and Experimental Physics17 citationsDOIOpen Access PDF

Abstract

Abstract Motivated by a new model of nonlinear electrodynamics known as Modified Maxwell (ModMax) theory, an exact analytical solution for black holes is obtained by coupling ModMax nonlinear electrodynamics and F(R) gravity. Then, the effects of the system’s parameters (F(R)-ModMax gravity parameters) on the event horizons are analyzed. The obtained black hole thermodynamic properties in the F(R)-ModMax theory are investigated by extracting their thermodynamic quantities such as Hawking temperature, electric charge, electric potential, entropy, and also total mass. The first law of thermodynamics for the system under study is evaluated. Next, by considering these black holes, the impacts of various parameters on both the local stability and global stability are investigated by examining the heat capacity and the Helmholtz free energy, respectively. Finally, the thermodynamic geometry of the black hole in F(R)-ModMax gravity is investigated by applying the Hendi–Panahiyan–Eslam Panah–Momennia thermodynamic metric (HPEM’s metric).

Topics & Concepts

PhysicsHelmholtz free energyEntropy (arrow of time)Black hole (networking)Black hole thermodynamicsEvent horizonNonlinear systemFirst law of thermodynamicsHeat capacityThermodynamicsElectric chargeQuantum electrodynamicsQuantum mechanicsEvent (particle physics)Routing (electronic design automation)Link-state routing protocolComputer scienceComputer networkRouting protocolCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsQuantum Electrodynamics and Casimir Effect
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