The geometry of surface-by-free groups
Copyright policy )The geometry of surface-by-free groups
We show that every word hyperbolic, surface-by-(noncyclic) free group Gamma is as rigid as possible: the quasi-isometry group of Gamma equals the abstract commensurator group Comm(Gamma), which in turn contains Gamma as a finite index subgroup. As a corollary, two such groups are quasi-isometric if and only if they are commensurable, and any finitely generated group quasi-isometric to Gamma must be weakly commensurable with Gamma. We use quasi-isometries to compute Comm(Gamma) explicitly, an example of how quasi-isometries can actually detect finite index information. The proofs of these theorems involve ideas from coarse topology, Teichmuller geometry, pseudo-Anosov dynamics, and singular solv-geometry.
48 pages
- University of Chicago United States
- Rutgers, The State University of New Jersey United States
- Rutgers University New Brunswick United States
- Ave Maria University United States
Topological methods in group theory, surface-by-free groups, 20F67, Subgroup theorems; subgroup growth, commensurators, Group Theory (math.GR), 20F65; 20F67, Hyperbolic groups and nonpositively curved groups, word hyperbolic groups, subgroups of finite index, FOS: Mathematics, quasi-isometry groups, 20F65, Teichmüller theory for Riemann surfaces, Geometric group theory, Mathematics - Group Theory
Topological methods in group theory, surface-by-free groups, 20F67, Subgroup theorems; subgroup growth, commensurators, Group Theory (math.GR), 20F65; 20F67, Hyperbolic groups and nonpositively curved groups, word hyperbolic groups, subgroups of finite index, FOS: Mathematics, quasi-isometry groups, 20F65, Teichmüller theory for Riemann surfaces, Geometric group theory, Mathematics - Group Theory
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