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Lemos, J.P.S., Lopes, F.J., Minamitsuji, M. & Rocha, J. (2018). Entropy of a rotating thin shell in the BTZ spacetime. In Massimo Bianchi, Robert T Jantzen, Remo Ruffini (Ed.), 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings. (pp. 1563-1566).: Wold Scientific.
L. J.P.S. et al., "Entropy of a rotating thin shell in the BTZ spacetime", in 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proc., Massimo Bianchi, Robert T Jantzen, Remo Ruffini, Ed., Wold Scientific, 2018, pp. 1563-1566
@inproceedings{j.p.s.2018_1734957036829, author = "Lemos, J.P.S. and Lopes, F.J. and Minamitsuji, M. and Rocha, J.", title = "Entropy of a rotating thin shell in the BTZ spacetime", booktitle = "14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings", year = "2018", editor = "Massimo Bianchi, Robert T Jantzen, Remo Ruffini", volume = "", number = "", series = "", doi = "10.1142/9789813226609_0146", pages = "1563-1566", publisher = "Wold Scientific", address = "", organization = "", url = "http://www.scopus.com/inward/record.url?eid=2-s2.0-85059065556&partnerID=MN8TOARS" }
TY - CPAPER TI - Entropy of a rotating thin shell in the BTZ spacetime T2 - 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings AU - Lemos, J.P.S. AU - Lopes, F.J. AU - Minamitsuji, M. AU - Rocha, J. PY - 2018 SP - 1563-1566 DO - 10.1142/9789813226609_0146 UR - http://www.scopus.com/inward/record.url?eid=2-s2.0-85059065556&partnerID=MN8TOARS AB - We investigate the thermodynamic equilibrium states of a rotating thin shell, i.e., a ring, in the (2 + 1)-dimensional spacetime with a negative cosmological constant. The inner and outer regions with respect to the shell are given by pure anti-de Sitter (AdS) and the Banados-Teitelbom-Zanelli (BTZ) spacetimes, respectively. The first law of thermodynamics of the thin shell, together with three equations of state for the pres- sure, the local inverse temperature and the thermodynamic angular velocity of the shell, yields the entropy of the shell, which is shown to depend only on its gravitational radii. When the shell is pushed to its own gravitational radius and its temperature is taken to be the Hawking temperature of the corresponding black hole, the entropy of the shell coincides with the Bekenstein-Hawking entropy. ER -