Ruelle operator for continuous potentials and DLR-Gibbs measures
Copyright policy )Ruelle operator for continuous potentials and DLR-Gibbs measures
In this work we study the Ruelle Operator associated to a continuous potential defined on a countable product of a compact metric space. We prove a generalization of Bowen's criterion for the uniqueness of the eigenmeasures. One of the main results of the article is to show that a probability is DLR-Gibbs (associated to a continuous translation invariant specification), if and only if, is an eigenprobability for the transpose of the Ruelle operator. Bounded extensions of the Ruelle operator to the Lebesgue space of integrable functions, with respect to the eigenmeasures, are studied and the problem of existence of maximal positive eigenfunctions for them is considered. One of our main results in this direction is the existence of such positive eigenfunctions for Bowen's potential in the setting of a compact and metric alphabet. We also present
We show the equivalence of DLR and eigenprobabilities for the dual of the Ruelle operator for continuous potentials. We add M. Stadlbauer as a coauthor
37D35, 28Dxx, 37C30, uncountable alphabet, Statistical Mechanics (cond-mat.stat-mech), Functional analytic techniques in dynamical systems; zeta functions, (Ruelle-Frobenius) transfer operators, etc., thermodynamic formalism, DLR-Gibbs measures, Probability (math.PR), equilibrium states, FOS: Physical sciences, eigenfunctions, Dynamical Systems (math.DS), Mathematical Physics (math-ph), continuous potentials, FOS: Mathematics, Thermodynamic formalism, variational principles, equilibrium states for dynamical systems, Mathematics - Dynamical Systems, Ruelle operator, Smooth ergodic theory, invariant measures for smooth dynamical systems, Condensed Matter - Statistical Mechanics, Mathematical Physics, Mathematics - Probability
37D35, 28Dxx, 37C30, uncountable alphabet, Statistical Mechanics (cond-mat.stat-mech), Functional analytic techniques in dynamical systems; zeta functions, (Ruelle-Frobenius) transfer operators, etc., thermodynamic formalism, DLR-Gibbs measures, Probability (math.PR), equilibrium states, FOS: Physical sciences, eigenfunctions, Dynamical Systems (math.DS), Mathematical Physics (math-ph), continuous potentials, FOS: Mathematics, Thermodynamic formalism, variational principles, equilibrium states for dynamical systems, Mathematics - Dynamical Systems, Ruelle operator, Smooth ergodic theory, invariant measures for smooth dynamical systems, Condensed Matter - Statistical Mechanics, Mathematical Physics, Mathematics - Probability
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