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Classifying spaces for families of subgroups for systolic groups

Classifying spaces for families of subgroups for systolic groups
Classifying spaces for families of subgroups for systolic groups

We determine the large scale geometry of the minimal displacement set of a hyperbolic isometry of a systolic complex. As a consequence, we describe the centraliser of such an isometry in a systolic group. Using these results, we construct a low-dimensional classifying space for the family of virtually cyclic subgroups of a group acting properly on a systolic complex. Its dimension coincides with the topological dimension of the complex if the latter is at least four. We show that graphical small cancellation complexes are classifying spaces for proper actions and that the groups acting on them properly admit three-dimensional classifying spaces with virtually cyclic stabilisers. This is achieved by constructing a systolic complex equivariantly homotopy equivalent to a graphical small cancellation complex. On the way we develop a systematic approach to graphical small cancellation complexes. Finally, we construct low-dimensional models for the family of virtually abelian subgroups for systolic, graphical small cancellation, and some CAT.0/groups.

Classifying space, Small cancellation, Systolic complex
1661-7207
1005-1060
Osajda, Damian
95ca56bd-db62-445a-8b07-430274d83196
Prytuła, Tomasz
8540bd1f-b0fd-40e8-b6d8-72c80cb05fdf
Osajda, Damian
95ca56bd-db62-445a-8b07-430274d83196
Prytuła, Tomasz
8540bd1f-b0fd-40e8-b6d8-72c80cb05fdf

Osajda, Damian and Prytuła, Tomasz (2018) Classifying spaces for families of subgroups for systolic groups. Groups, Geometry, and Dynamics, 12 (3), 1005-1060. (doi:10.4171/GGD/461).

Record type: Article

Abstract

We determine the large scale geometry of the minimal displacement set of a hyperbolic isometry of a systolic complex. As a consequence, we describe the centraliser of such an isometry in a systolic group. Using these results, we construct a low-dimensional classifying space for the family of virtually cyclic subgroups of a group acting properly on a systolic complex. Its dimension coincides with the topological dimension of the complex if the latter is at least four. We show that graphical small cancellation complexes are classifying spaces for proper actions and that the groups acting on them properly admit three-dimensional classifying spaces with virtually cyclic stabilisers. This is achieved by constructing a systolic complex equivariantly homotopy equivalent to a graphical small cancellation complex. On the way we develop a systematic approach to graphical small cancellation complexes. Finally, we construct low-dimensional models for the family of virtually abelian subgroups for systolic, graphical small cancellation, and some CAT.0/groups.

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More information

e-pub ahead of print date: 27 July 2018
Keywords: Classifying space, Small cancellation, Systolic complex

Identifiers

Local EPrints ID: 423862
URI: http://eprints.soton.ac.uk/id/eprint/423862
DOI: doi:10.4171/GGD/461
ISSN: 1661-7207
PURE UUID: 1225072a-72c5-4d78-bea7-4f731f18ffb6

Catalogue record

Date deposited: 03 Oct 2018 16:30
Last modified: 15 Mar 2024 21:57

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Contributors

Author: Damian Osajda
Author: Tomasz Prytuła

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