Group actions on multitrees and the K-theory of their crossed products

Abstract

We study group actions on multitrees, which are directed graphs in which there is at most one directed path between any two vertices. In our main result we describe a six-term exact sequence in K-theory for the reduced crossed product C0(∂ E)r G induced from the action of a countable discrete group G on a row-finite, finitely-aligned multitree E with no sources. We provide formulas for the K-theory of C0(∂ E) r G in the case where G acts freely on E, and in the case where all vertex stabilisers are infinite cyclic. We study the action G ∂ E in a range of settings, and describe minimality, local contractivity, topological freeness, and amenability in terms of properties of the underlying data. In an application of our main theorem, we describe a six-term exact sequence in K-theory for the crossed product induced from a group acting on the boundary of an undirected tree.

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