To derive black hole thermodynamics in any quantum theory of gravity, one must introduce constraints that ensure that a black hole is actually present. For a large class of black holes, the imposition of such "horizon constraints" allows the use of conformal field theory methods to compute the density of states, reproducing the correct Bekenstein-Hawking entropy in a nearly model-independent manner. This approach may explain the "universality" of black hole entropy, the fact that many inequivalent descriptions of quantum states all seem to give the same thermodynamic predictions. It also suggests an elegant picture of the relevant degrees of freedom, as Goldstone-boson-like excitations arising from symmetry breaking by a conformal anomaly induced by the horizon constraints. © Springer Science+Business Media, LLC 2009.
CITATION STYLE
Carlip, S. (2009). Black hole entropy and the problem of universality. In Quantum Mechanics of Fundamental Systems: The Quest for Beauty and Simplicity - Claudio Bunster Festschrift (pp. 91–105). Springer Science and Business Media, LLC. https://doi.org/10.1007/978-0-387-87499-9_7
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