The RVB-residue method is generalized to dynamical black holes, reproducing the local trapping-horizon temperature for Vaidya and yielding a point-dependent temperature for Kinnersley.
The Hawking Temperature of Anti-de Sitter Black Holes: Topology and Phase Transitions
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abstract
In this work we determine how the description of a four-dimensional Schwarzschild-anti de Sitter black hole affects the topological calculation of its Hawking temperature. It is shown that a two-dimensional approach is required due to the presence of the Hawking-Page phase transition which destabilises the spacetime's topology. We prove that a dimensional reduction removes the phase transition and hence stabilises the system. This hints at a previously unknown feature of black hole thermodynamics, namely that certain black holes may demand a lower-dimensional description in order to define their Hawking temperatures.
fields
gr-qc 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
citing papers explorer
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Hawking Temperatures of Dynamical Black Holes from the RVB--Residue Method:Vaidya and Kinnersley Geometries
The RVB-residue method is generalized to dynamical black holes, reproducing the local trapping-horizon temperature for Vaidya and yielding a point-dependent temperature for Kinnersley.