Schottky anomaly of deSitter black holes

Schottky anomaly of deSitter black holes

The interplay of black hole and cosmological horizons introduces distinctive thermodynamic behavior for deSitter black holes, including well-known upper bounds for the mass and entropy. We point to a new such feature, a Schottky peak in the heat capacity of Schwarzschild-deSitter (SdS) black holes....

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Veröffentlicht in:Classical and quantum gravity 2020-03, Vol.37 (5), p.54001
Hauptverfasser: Dinsmore, Jack, Draper, Patrick, Kastor, David, Qiu, Yue, Traschen, Jennie
Format: Artikel
Sprache:eng
Schlagworte:
black hole micro states
black hole thermodynamics
de Sitter
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Zusammenfassung:The interplay of black hole and cosmological horizons introduces distinctive thermodynamic behavior for deSitter black holes, including well-known upper bounds for the mass and entropy. We point to a new such feature, a Schottky peak in the heat capacity of Schwarzschild-deSitter (SdS) black holes. With this behavior in mind, we explore statistical models for the underlying quantum degrees of freedom of SdS holes. While a simple two-state spin model gives Schottky behavior, in order to capture the non-equilibrium nature of the SdS system we consider a system with a large number of non-interacting spins. We examine to what extent constrained states of this system reproduce the thermodynamic properties of the black hole. We also review results of a recent study of particle production in SdS spacetimes in light of the Schottky anomaly and our spin models.
ISSN:0264-9381
1361-6382
DOI:10.1088/1361-6382/ab638f