Classifying spaces for families of subgroups
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| − | Given a discrete group $G$ and a family of subgroups $\mathcal{F}$ of $G$, there is a $G$-CW complex $E_\mathcal{F}G$ that classifies $G$-CW complexes with isotropy contained in $\mathcal{F}$. That is, for every $G$-CW complex $X$, there is a $G$-equivariant map $X \to E_\mathcal{F}G$ that is unique up to $G$-equivariant homotopy. | + | Given a discrete group $G$ and a ''family of subgroups'' (see Definition \ref{def:family} below) $\mathcal{F}$ of $G$, there is a $G$-CW complex, $E_\mathcal{F}G$, that classifies $G$-CW complexes with isotropy contained in $\mathcal{F}$. That is, for every $G$-CW complex $X$, there is a $G$-equivariant map $X \to E_\mathcal{F}G$ that is unique up to $G$-equivariant homotopy. This universal property implies that $E_\mathcal{F}G$ is unique up to $G$-homotopy. For this reason $E_\mathcal{F}G$ is known as the classifying space (or universal space) of $G$ for the family $\mathcal{F}$. |
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| + | {{beginthm|Definition (Family of Subgroups)|}}\label{def:family} | ||
| + | A family of subgroups of a discrete group $G$ is a collection of subgroups, $\mathcal{F}$, that is closed under conjugation and taking subgroups. | ||
{{endthm}} | {{endthm}} | ||
Revision as of 14:46, 7 June 2010
Contents |
1 Introduction
Given a discrete group 
and a family of subgroups (see Definition 1.1 below) 
of , there is a -CW complex, 
, that classifies -CW complexes with isotropy contained in . That is, for every -CW complex 
, there is a -equivariant map 
that is unique up to -equivariant homotopy. This universal property implies that is unique up to -homotopy. For this reason is known as the classifying space (or universal space) of for the family .
Definition (Family of Subgroups) 1.1.
A family of subgroups of a discrete group is a collection of subgroups, , that is closed under conjugation and taking subgroups.
2 Construction and examples
...
3 Invariants
...
4 Classification/Characterization
...
5 Further discussion
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6 References
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This page has not been refereed. The information given here might be incomplete or provisional. |
