We consider the effects of rotations on the calculation of some thermodynamical quan- tities like the free energy, internal energy and entropy. In ordinary gravity, when we evaluate the density of states of a scalar field close to a black hole horizon, we obtain a divergent result which can be kept under control with the help of some standard regular- ization and renormalization processes. We show that when we use the Gravity's Rainbow approach such regularization/renormalization processes can be avoided. A comparison between the calculation done in an inertial frame and in a comoving frame is presented.
(2022). Black hole thermodynamics and Gravity’s Rainbow . Retrieved from https://hdl.handle.net/10446/235615
Black hole thermodynamics and Gravity’s Rainbow
Garattini, Remo
2022-01-01
Abstract
We consider the effects of rotations on the calculation of some thermodynamical quan- tities like the free energy, internal energy and entropy. In ordinary gravity, when we evaluate the density of states of a scalar field close to a black hole horizon, we obtain a divergent result which can be kept under control with the help of some standard regular- ization and renormalization processes. We show that when we use the Gravity's Rainbow approach such regularization/renormalization processes can be avoided. A comparison between the calculation done in an inertial frame and in a comoving frame is presented.| File | Dimensione del file | Formato | |
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