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Closure and homological properties of (auto)stackable groups
Let G be a finitely presented group with Cayley graph Γ. Roughly, G is a stackable group if there is a maximal tree T in Γ and a function &phis;, defined on the edges in Γ, for which there is a natural 'flow' on the edges in Γ\T towards the identity. Additionally, if graph(&phis;), which consists of pairs (e, &phis;(e)) for e an edge in Γ, forms a regular language, then G is autostackable. In 2011, Brittenham and Hermiller introduced stackable groups in part as a means to gain traction on the word problem for 3-manifold groups. They showed that if graph(&phis;) is (at least) decidable, as a language, then there is an effective algorithm which solves the word problem; furthermore, they show that stackable groups have an inductive procedure for building van Kampen diagrams, which helps provide insight into the complexity of the word problem. ^ As one part of my thesis research, I consider group constructions under which the (auto)stackable property is preserved. In this thesis, I show positive results in the case of graph products (a generalization of direct and free products), group extensions and finite index supergroups, and in the case of free products with amalgamation of free abelian groups over an infinite cyclic group. Using closure under group extensions, I also show that polycyclic groups are autostackable, and that there exists an autostackable group with unsolvable conjugacy problem. ^ Autostackable groups generalize the structures of automatic groups and groups with finite complete rewriting systems, both of which are known to be of type FP∞. However, in this paper, I show that there exists an autostackable group that is not of type FP∞.^
Johnson, Ashley, "Closure and homological properties of (auto)stackable groups" (2013). ETD collection for University of Nebraska - Lincoln. AAI3587480.