Semistability and Simple Connectivity at Infinity of Finitely Generated Groups with a Finite Series of Commensurated Subgroups

Abstract

A subgroup H of a group G is commensurated in G if for each g∈ G, gHg-1 H has finite index in both H and gHg-1. If there is a sequence of subgroups H=Q0 Q1 ... Qk Qk+1=G where Qi is commensurated in Qi+1 for all i, then Q0 is subcommensurated in G. In this paper we introduce the notion of the simple connectivity at infinity of a finitely generated group (in analogy with that for finitely presented groups). Our main result is: If a finitely generated group G contains an infinite, finitely generated, subcommensurated subgroup H, of infinite index in G, then G is 1-ended and semistable at ∞. If additionally, H is finitely presented and 1-ended, then G is simply connected at ∞. A normal subgroup of a group is commensurated, so this result is a strict generalization of a number of results, including the main theorems of G. Conner and M. Mihalik CM, B. Jackson J, V. M. Lew L, M. Mihalik M1and M2, and J. Profio P.