Litcius/Paper detail

On topological models of zero entropy loosely Bernoulli systems

Felipe García‐Ramos, Dominik Kwietniak

2021Transactions of the American Mathematical Society12 citationsDOIOpen Access PDF

Abstract

We provide a purely topological characterisation of uniquely ergodic topological dynamical systems (TDSs) whose unique invariant measure is zero entropy loosely Bernoulli (following Ratner, we call such measures loosely Kronecker). At the heart of our proofs lies Feldman-Katok continuity (FK-continuity for short), that is, continuity with respect to the change of metric to the Feldman-Katok pseudometric. Feldman-Katok pseudometric is a topological analog of f-bar (edit) metric for symbolic systems. We also study an opposite of FK-continuity, coined FK-sensitivity. We obtain a version of Auslander-Yorke dichotomies: minimal TDSs are either FK-continuous or FK-sensitive, and transitive TDSs are either almost FK-continuous or FK-sensitive.

Topics & Concepts

MathematicsTopological entropyBernoulli's principleErgodic theoryBernoulli schemePure mathematicsDynamical systems theoryAlgebraic numberTopology (electrical circuits)Discrete mathematicsCombinatoricsMathematical analysisAerospace engineeringPhysicsEngineeringQuantum mechanicsMathematical Dynamics and FractalsAdvanced Topology and Set TheoryTopological and Geometric Data Analysis