Universal Bound on Dynamical Relaxation Times and Black-Hole Quasinormal Ringing
arXiv:gr-qc/0611004 · doi:10.1103/PhysRevD.75.064013
Abstract
From information theory and thermodynamic considerations a universal bound on the relaxation time $Ï$ of a perturbed system is inferred, $Ï\geq \hbar/ÏT$, where $T$ is the system's temperature. We prove that black holes comply with the bound; in fact they actually {\it saturate} it. Thus, when judged by their relaxation properties, black holes are the most extreme objects in nature, having the maximum relaxation rate which is allowed by quantum theory.
4 pages