The Bañados-Teitelboim-Zanelli (BTZ) stationary black hole solution is considered and its mass and angular momentum are calculated by means of the Nöther theorem. In particular, relative conserved quantities with respect to a suitably fixed background are discussed. Entropy is then computed in a geometric and macroscopic framework, so that it satisfies the first principle of thermodynamics. In order to compare this more general framework to the prescription of Wald and co-workers, we construct the maximal extension of the BTZ horizon by means of Kruskal-like coordinates. A discussion about the different features of the two methods for computing entropy is finally developed.
Remarks on conserved quantities and entropy of BTZ black hole solutions. I. The general setting
FATIBENE, Lorenzo;FERRARIS, Marco;FRANCAVIGLIA, Mauro;RAITERI, Marco
1999-01-01
Abstract
The Bañados-Teitelboim-Zanelli (BTZ) stationary black hole solution is considered and its mass and angular momentum are calculated by means of the Nöther theorem. In particular, relative conserved quantities with respect to a suitably fixed background are discussed. Entropy is then computed in a geometric and macroscopic framework, so that it satisfies the first principle of thermodynamics. In order to compare this more general framework to the prescription of Wald and co-workers, we construct the maximal extension of the BTZ horizon by means of Kruskal-like coordinates. A discussion about the different features of the two methods for computing entropy is finally developed.
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