Black-hole thermodynamics with modified dispersion relations and generalized uncertainty principles
Jun, 2005
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Abstract: (arXiv)
In several approaches to the quantum-gravity problem evidence has emerged of the validity of a "GUP" (a Generalized position-momentum Uncertainty Principle) and/or a "MDR" (a modification of the energy-momentum dispersion relation), but very little is known about the implications of GUPs and MDRs for black-hole thermodynamics, another key topic for quantum-gravity research. We investigate an apparent link, already suggested in an earlier exploratory study involving two of us, between the possibility of a GUP and/or a MDR and the possibility of a log term in the area-entropy black-hole formula. We then obtain, from that same perspective, a modified relation between the mass of a black hole and its temperature, and we examine the validity of the "Generalized Second Law of black-hole thermodynamics" in theories with a GUP and/or a MDR. After an analysis of GUP- and MDR-modifications of the black-body radiation spectrum, we conclude the study with a description of the black-hole evaporation process.Note:
- 20 pages, LaTex
- 04.70.Dy
- 04.60.Pp
- black hole: entropy
- thermodynamics
- quantum gravity
- dispersion relation
- uncertainty relations
- black hole: mass
- black hole: temperature
- particle: massless
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