arXiv:math/0012081 Abstract

arXiv:math/0012081 [math.PR]Abstract References Reviews Resources

Large Deviation Principles and Complete Equivalence and Nonequivalence Results for Pure and Mixed Ensembles

Published 2000-12-11Version 1

We consider a general class of statistical mechanical models of coherent structures in turbulence, which includes models of two-dimensional fluid motion, quasi-geostrophic flows, and dispersive waves. First, large deviation principles are proved for the canonical ensemble and the microcanonical ensemble. For each ensemble the set of equilibrium macrostates is defined as the set on which the corresponding rate function attains its minimum of 0. We then present complete equivalence and nonequivalence results at the level of equilibrium macrostates for the two ensembles.

Comments: 57 pages

Categories: math.PR, math-ph, math.MP, math.OC

Subjects: 60F10, 82B10

Keywords: large deviation principles, nonequivalence results, complete equivalence, mixed ensembles, equilibrium macrostates

Related articles: Most relevant | Search more

arXiv:math/0611706 [math.PR] (Published 2006-11-22)

Large deviations for Dirichlet processes and Poisson-Dirichlet distributions with two parameters

Shui Feng

arXiv:2311.06531 [math.PR] (Published 2023-11-11)

Large deviation principles for graphon sampling

Jan Grebí k, Oleg Pikhurko

arXiv:1507.02935 [math.PR] (Published 2015-07-10)

Laplace transform asymptotics and large deviation principles for longest success runs in Bernoulli trials

Takis Konstantopoulos, Zhenxia Liu, Xiangfeng Yang

arXiv Analytics

arXiv:math/0012081 [math.PR]Abstract References Reviews Resources

Large Deviation Principles and Complete Equivalence and Nonequivalence Results for Pure and Mixed Ensembles

Links

Toolbox

arXiv:math/0012081 [math.PR]AbstractReferencesReviewsResources

Large Deviation Principles and Complete Equivalence and Nonequivalence Results for Pure and Mixed Ensembles

Links

Toolbox

arXiv:math/0012081 [math.PR]Abstract References Reviews Resources