Entropy, information and doubly stochastic transformations

Jamil Daboul

doi:10.1016/0375-9601(91)90515-A

Entropy, information and doubly stochastic transformations

Jamil Daboul

Research output: Contribution to journal › Article › peer-review

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Abstract

I analyze two inequalities on entropy and information, one due to von Neumann and a recent one to Schiffer, and show that the relevant quantities in these inequalities are related by special doubly stochastic matrices (DSM). I then use generalization of the first inequality to prove algebraically a generalization of Schiffer's inequality to arbitrary DSM. I also give a second interpretation to the latter inequality, determine its domain of applicability, and illustrate it by using Zeeman splitting. This example shows that symmetric (degenerate) systems have less entropy than the corresponding split systems, if compared at the same average energy. This seemingly counter-intuitive result is explained thermodynamically.

Original language	English
Pages (from-to)	213-220
Number of pages	8
Journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	159
Issue number	4-5
DOIs	https://doi.org/10.1016/0375-9601(91)90515-A
State	Published - 14 Oct 1991
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

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10.1016/0375-9601(91)90515-A

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AB - I analyze two inequalities on entropy and information, one due to von Neumann and a recent one to Schiffer, and show that the relevant quantities in these inequalities are related by special doubly stochastic matrices (DSM). I then use generalization of the first inequality to prove algebraically a generalization of Schiffer's inequality to arbitrary DSM. I also give a second interpretation to the latter inequality, determine its domain of applicability, and illustrate it by using Zeeman splitting. This example shows that symmetric (degenerate) systems have less entropy than the corresponding split systems, if compared at the same average energy. This seemingly counter-intuitive result is explained thermodynamically.

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IS - 4-5

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Entropy, information and doubly stochastic transformations

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