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Physical properties of a regular rotating black hole: Thermodynamics, stability, and quasinormal modes

S. H. Hendi, S. N. Sajadi, Maryam Khademi

2021Physical review. D/Physical review. D.31 citationsDOIOpen Access PDF

Abstract

Respecting the angular momentum conservation of torque-free systems, it is natural to consider rotating solutions of massive objects. Besides that, motivated by the realistic astrophysical black holes that rotate, we consider a nonlinearly charged regular rotating black hole. We investigate the geometrical properties of the metric by studying the boundary of ergosphere. We also analyze thermodynamic properties of the solution in anti--de Sitter spacetime and examine thermal stability and the existence of phase transition. In addition, we perturb the black hole by using of a real massless scalar field as a probe to investigate its dynamic stability. We also obtain an analytic expression for the real and imaginary parts of the quasinormal frequencies.

Topics & Concepts

PhysicsAngular momentumRotating black holeBlack hole (networking)Classical mechanicsSpacetimeMassless particleScalar (mathematics)de Sitter–Schwarzschild metricScalar fieldExtremal black holeAnti-de Sitter spaceQuasinormal modeMathematical physicsThermodynamicsQuantum mechanicsEntropy (arrow of time)GeometryRouting (electronic design automation)Computer networkLink-state routing protocolComputer scienceMathematicsRouting protocolBlack Holes and Theoretical PhysicsAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves Research
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