Optimizing entropy bounds for macroscopic systems (1404.1802v2)

Published 7 Apr 2014 in gr-qc, hep-th, and physics.chem-ph

Abstract: The universal bound on specific entropy was originally inferred from black hole thermodynamics. We here show from classical thermodynamics alone that for a system at fixed volume or fixed pressure, the ratio of entropy to nonrelativistic energy has a unique maximum $(S/E)\mathrm{max}$. A simple argument from quantum dynamics allows one to set a model--independent upper bound on $(S/E)\mathrm{max}$ which is usually much tighter than the universal bound. We illustrate with two examples.

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Authors (1)

Jacob D. Bekenstein

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