Invariant measures with full support and approximation by zero-entropy systems in the C0-Gromov--Hausdorff topology

Abstract

In this paper we prove that every homeomorphism of a compact metric space admitting an invariant probability measure with full support can be approximated in the C0-Gromov--Hausdorff topology by homeomorphisms with zero topological entropy. The argument relies on the ergodic decomposition theorem and on the existence of points with dense positive orbit in the supports of suitable ergodic components. As a consequence, topological entropy is not stable under C0-Gromov--Hausdorff perturbations within this class. We also show that if, in addition, the homeomorphism is topologically GH-stable, then its periodic points are dense in the ambient space. Finally, by combining this framework with a previous result on transitive and topologically GH-stable homeomorphisms, we deduce that every dynamics in this class admits an invariant measure with full support and therefore falls within the scope of the general approximation theorem by zero-entropy systems.