Abstract
Abstract
It is well known that an asymptotically flat four-dimensional Kerr black hole has a smaller (specific) entropy than a Schwarzschild black hole of the same mass. We show here that the same is true if the temperature, rather than the mass, is held fixed; and we also show that an asymptotically AdS5-Kerr black hole has a smaller specific entropy than an AdS5-Schwarzschild black hole of the same temperature, except in a negligibly small class of special examples. The AdS5-Kerr case is particularly interesting, because here the gauge-gravity duality applies; if we further accept that there is a useful analogy between the strongly coupled field theories dual to AdS black holes and the best-understood example of a strongly coupled fluid (the Quark-Gluon Plasma), then we can apply QGP theory to predict the behaviour of black hole entropy in this case. The prediction agrees with our study of AdS5-Kerr entropy. The hope is that such results might lead ultimately to an identification of black hole microstates.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
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