Thermodynamics of Kerr Effective Black Hole Geometries

Abstract: We uncover the thermodynamical properties of a class of non-asymptotically flat geometries, referred here as the Kerr effective geometries, that realize the hidden symmetries of Kerr black hole spacetimes via Teukolsky's equation in the theory of linear gravitational perturbations. While the thermodynamic properties, such as entropy, remain the same as those of Kerr black holes, the asymptotic charges, as we will demonstrate, are different. In this new framework with the ambient flat asymptotic boundary removed, we derive the mass and angular momentum of the Kerr effective geometries using the regulated Komar integral and the Brown-York prescription. We also obtain explicit expressions for the corresponding gauge potentials and electric charges. By deriving the asymptotic charges, we demonstrate that both the first law of black hole mechanics and the Smarr law hold.