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The case for black hole thermodynamics part II: Statistical mechanics
Affiliation:Dornsife College of Letters, Arts and Sciences, University of Southern California, United States;Department of Philosophy, University of Salzburg, Franziskanergasse 1, 5020 Salzburg, Austria;44 bd. Nungesser, 13014 Marseille, France;Department of Philosophy, University of Michigan, United States of America;Norther Illinois University, Department of Philosophy, Zulauf Hall 915, Dekalb, IL, 60115, USA;Faculty of Philosophy, University of Cambridge, UK;School of Philosophy, University of Southern California, USA
Abstract:I present in detail the case for regarding black hole thermodynamics as having a statistical-mechanical explanation in exact parallel with the statistical-mechanical explanation believed to underlie the thermodynamics of other systems. (Here I presume that black holes are indeed thermodynamic systems in the fullest sense; I review the evidence for that conclusion in the prequel to this paper.) I focus on three lines of argument: (i) zero-loop and one-loop calculations in quantum general relativity understood as a quantum field theory, using the path-integral formalism; (ii) calculations in string theory of the leading-order terms, higher-derivative corrections, and quantum corrections, in the black hole entropy formula for extremal and near-extremal black holes; (iii) recovery of the qualitative and (in some cases) quantitative structure of black hole statistical mechanics via the AdS/CFT correspondence. In each case I briefly review the content of, and arguments for, the form of quantum gravity being used (effective field theory; string theory; AdS/CFT) at a (relatively) introductory level: the paper is aimed at readers with some familiarity with thermodynamics, quantum mechanics and general relativity but does not presume advanced knowledge of quantum gravity. My conclusion is that the evidence for black hole statistical mechanics is as solid as we could reasonably expect it to be in the absence of a directly-empirically-verified theory of quantum gravity.
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