The uniform Roe algebra of an inverse semigroup
Abstract: Given a discrete and countable inverse semigroup $S$ one can study, in analogy to the group case, its geometric aspects. In particular, we can equip $S$ with a natural metric, given by the path metric in the disjoint union of its Sch\"{u}tzenberger graphs. This graph, which we denote by $\Lambda_S$, inherits much of the structure of $S$. In this article we compare the C*-algebra $\mathcal{R}_S$, generated by the left regular representation of $S$ on $\ell2(S)$ and $\ell\infty(S)$, with the uniform Roe algebra over the metric space, namely $C*_u(\Lambda_S)$. This yields a chacterization of when $\mathcal{R}_S = C*_u(\Lambda_S)$, which generalizes finite generation of $S$. We have termed this by finite labeability (FL), since it holds when the $\Lambda_S$ can be labeled in a finitary manner. The graph $\Lambda_S$, and the FL condition above, also allow to analyze large scale properties of $\Lambda_S$ and relate them with C*-properties of the uniform Roe algebra. In particular, we show that domain measurability of $S$ (a notion generalizing Day's definition of amenability of a semigroup, cf., [5]) is a quasi-isometric invariant of $\Lambda_S$. Moreover, we characterize property A of $\Lambda_S$ (or of its components) in terms of the nuclearity and exactness of the corresponding C*-algebras. We also treat the special classes of F-inverse and E-unitary inverse semigroups from this large scale point of view.
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