Boundary of the boundary for random walks on groups (2103.16658v1)

Abstract: We study fine structure related to finitely supported random walks on infinite finitely generated discrete groups, largely motivated by dimension group techniques. The unfaithful extreme harmonic functions (defined only on proper space-time cones), aka unfaithful pure traces, can be represented on systems of finite support, avoiding dead ends. This motivates properties of the random walk (WC) and of the group (SWC) which become of interest in their own right. While all abelian groups satisfy WC, the do not satisfy SWC; however some abelian by finite groups do satisfy the latter, and we characterize when this occurs. In general, we determine the maximal order ideals, aka, maximal proper space-time subcones of that generated by the group element $1$ at time zero), and show that the corresponding quotients are stationary simple dimension groups, and that all such can occur for the free group on two generators. We conclude with a case study of the discrete Heisenberg group, determining among other things, the pure traces (these are the unfaithful ones, not arising from characters).