Analyzing symmetry breaking within a chaotic quantum system via Bayesian
  inference

A. Delon; B. Efron; C. C. Rodriguez; C. I. Barbosa; C. Stein; D. M. Leitner; D. M. Leitner; E. Doron; E. Haller; E. T. Jaynes; G. E. Mitchell; H. Alt; H. Alt; H. Alt; H. Jeffreys; H. L. Harney; H. L. Harney; H.-D. Gräf; H.-J. Stöckmann; H.-J. Stöckmann; I. S. Gradshteyn; J. B. French; J. D. Bowman; J. Hartigan; L. A. Bunimovich; L. A. Bunimovich; M. V. Berry; N. Rosenzweig; O. Bohigas; O. Bohigas; S. Sridhar; S. Sridhar; T. Guhr; T. Guhr

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Analyzing symmetry breaking within a chaotic quantum system via Bayesian inference

Authors: A. Delon
B. Efron
C. C. Rodriguez
C. I. Barbosa
C. Stein
D. M. Leitner
D. M. Leitner
E. Doron
E. Haller
E. T. Jaynes
G. E. Mitchell
H. Alt
H. Alt
H. Alt
H. Jeffreys
H. L. Harney
H. L. Harney
H.-D. Gräf
H.-J. Stöckmann
H.-J. Stöckmann
I. S. Gradshteyn
J. B. French
J. D. Bowman
J. Hartigan
L. A. Bunimovich
L. A. Bunimovich
M. V. Berry
N. Rosenzweig
O. Bohigas
O. Bohigas
S. Sridhar
S. Sridhar
T. Guhr
T. Guhr
Publication date: 25 October 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Bayesian inference is applied to the level fluctuations of two coupled microwave billiards in order to extract the coupling strength. The coupled resonators provide a model of a chaotic quantum system containing two coupled symmetry classes of levels. The number variance is used to quantify the level fluctuations as a function of the coupling and to construct the conditional probability distribution of the data. The prior distribution of the coupling parameter is obtained from an invariance argument on the entropy of the posterior distribution.Comment: Example from chaotic dynamics. 8 pages, 7 figures. Submitted to PR

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