Ore localization of amenable monoid actions and applications towards entropy - addition formulas and the bridge theorem

Abstract

For a left action SλX of a cancellative right amenable monoid S on a discrete Abelian group X, we construct its Ore localization Gλ*X*, where G is the group of left fractions of S; analogously, for a right action K S on a compact space K, we construct its Ore colocalization K** G. Both constructions preserve entropy, i.e., for the algebraic entropy halg and for the topological entropy htop one has halg(λ)=halg(λ*) and htop()=htop(*), respectively. Exploiting these constructions and the theory of quasi-tilings, we extend the Addition Theorem for htop, known for right actions of countable amenable groups on compact metrizable groups, to right actions K S of cancellative right amenable monoids S (with no restrictions on the cardinality) on arbitrary compact groups K. When the compact group K is Abelian, we prove that htop() coincides with halg(), where S X is the dual left action on the discrete Pontryagin dual X=K, that is, a so-called Bridge Theorem. From the Addition Theorem for htop and the Bridge Theorem, we obtain an Addition Theorem for halg for left actions Sλ X on discrete Abelian groups, so far known only under the hypotheses that either X is torsion or S is locally monotileable. The proofs substantially use the unified approach towards entropy based on the entropy of actions of cancellative right amenable monoids on appropriately defined normed monoids.