Expansive subdynamics for algebraic \mathbb{Z}^d-actions

MANFRED EINSIEDLER; DOUGLAS LIND; RICHARD MILES; THOMAS WARD

doi:10.1017/S014338570100181X

Abstract

A general framework for investigating topological actions of \mathbb{Z}^d on compact metric spaces was proposed by Boyle and Lind in terms of expansive behavior along lower-dimensional subspaces of \mathbb{R}^d. Here we completely describe this expansive behavior for the class of algebraic \mathbb{Z}^d-actions given by commuting automorphisms of compact abelian groups. The description uses the logarithmic image of an algebraic variety together with a directional version of Noetherian modules over the ring of Laurent polynomials in several commuting variables.

We introduce two notions of rank for topological \mathbb{Z}^d-actions, and for algebraic \mathbb{Z}^d-actions describe how they are related to each other and to Krull dimension. For a linear subspace of \mathbb{R}^d we define the group of points homoclinic to zero along the subspace, and prove that this group is constant within an expansive component.

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Expansive subdynamics for algebraic\mathbb{Z}^d-actions

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Expansive subdynamics for algebraic\mathbb{Z}^d-actions

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