C. Anastopoulos
Published 1998-05-19Version 1
We study information measures in quantu mechanics, with particular emphasis on providing a quantification of the notions of classicality and predictability. Our primary tool is the Shannon - Wehrl entropy I. We give a precise criterion for phase space classicality and argue that in view of this a) I provides a measure of the degree of deviation from classicality for closed system b) I - S (S the von Neumann entropy) plays the same role in open systems We examine particular examples in non-relativistic quantum mechanics. Finally, (this being one of our main motivations) we comment on field classicalisation on early universe cosmology.
Comments: 35 pages, LATEX
Journal: Phys.Rev. D59 (1999) 045001
Wigner rotations, Bell states, and Lorentz invariance of entanglement and von Neumann entropy
A hidden variables model for non-relativistic quantum mechanics in terms of probabilities of particle paths
Comment on Limitations on the superposition principle: superselection rules in non-relativistic quantum mechanics
