Rigidity of Commutative Non-hyperbolic Actions by Toral Automorphisms

Berend gives necessary and sufficient conditions on a $Z^r$-action $\alpha$ on a torus $T^d$ by toral automorphisms in order for every orbit be either finite or dense. One of these conditions is that on every common eigendirection of the $Z^r$-action there is an element $\mathbf n \in Z^r$ so that $\alpha^\mathbf n$ expands this direction. In this paper, we investigate what happens when this condition is removed; more generally, we consider a partial orbit $\{\alpha^\mathbf n.x : \mathbf n \in \Omega\}$ where $\Omega$ is a set of elements which acts approximately as the identity on a given set of eigendirections. This analysis is used in an essential way in the work of the author with E. Lindenstrauss classifying topological self-joinings of maximal $Z^r$-actions on tori for $r\geq 3$.