Chaos for Liouville probability densities

A. J. Lichtenberg; A. N. Kolmogorov; A. N. Kolmogorov; A. Peres; B. O. Koopman; C. E. Shannon; C. E. Shannon; C. E. Shannon; C. M. Caves; C. M. Caves; C. M. Caves; Carlton M. Caves; D. S. Ornstein; D. Welsh; E. Borel; E. Borel; E. T. Jaynes; E. T. Jaynes; E. T. Jaynes; G. J. Chaitin; H. Spohn; J. Ford; J. P. Crutchfield; M. V. Berry; R. Landauer; R. Landauer; R. Schack; R. Schack; R. Schack; Rüdiger Schack; V. I. Arnold; V. M. Alekseev; W. H. Zurek; W. H. Zurek

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Chaos for Liouville probability densities

Authors: A. J. Lichtenberg
A. N. Kolmogorov
A. N. Kolmogorov
A. Peres
B. O. Koopman
C. E. Shannon
C. E. Shannon
C. E. Shannon
C. M. Caves
C. M. Caves
C. M. Caves
Carlton M. Caves
D. S. Ornstein
D. Welsh
E. Borel
E. Borel
E. T. Jaynes
E. T. Jaynes
E. T. Jaynes
G. J. Chaitin
H. Spohn
J. Ford
J. P. Crutchfield
M. V. Berry
R. Landauer
R. Landauer
R. Schack
R. Schack
R. Schack
Rüdiger Schack
V. I. Arnold
V. M. Alekseev
W. H. Zurek
W. H. Zurek
Publication date: 5 June 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Using the method of symbolic dynamics, we show that a large class of classical chaotic maps exhibit exponential hypersensitivity to perturbation, i.e., a rapid increase with time of the information needed to describe the perturbed time evolution of the Liouville density, the information attaining values that are exponentially larger than the entropy increase that results from averaging over the perturbation. The exponential rate of growth of the ratio of information to entropy is given by the Kolmogorov-Sinai entropy of the map. These findings generalize and extend results obtained for the baker's map [R. Schack and C. M. Caves, Phys. Rev. Lett. 69, 3413 (1992)].Comment: 26 pages in REVTEX, no figures, submitted to Phys. Rev.

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