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PERIODICITY IN GROUP COHOMOLOGY AND COMPLETE RESOLUTIONS

Published online by Cambridge University Press:  02 August 2005

OLYMPIA TALELLI
Affiliation:
Department of Mathematics, University of Athens, Panepistemiopolis, 15784 Athens, Greeceotalelli@cc.uoa.gr
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Abstract

A group $G$ is said to have periodic cohomology with period $q$ after $k$ steps, if the functors $H^{i}(G,-)$ and $H^{i+q}(G,-)$ are naturally equivalent for all $i>k$. Mislin and the author have conjectured that periodicity in cohomology after some steps is the algebraic characterization of those groups $G$ that admit a finite-dimensional, free $G$-CW-complex, homotopy equivalent to a sphere. This conjecture was proved by Adem and Smith under the extra hypothesis that the periodicity isomorphisms are given by the cup product with an element in $H^q (G,\mathbb{Z})$. It is expected that the periodicity isomorphisms will always be given by the cup product with an element in $H^q (G,\mathbb{Z})$; this paper shows that this is the case if and only if the group $G$ admits a complete resolution and its complete cohomology is calculated via complete resolutions. It is also shown that having the periodicity isomorphisms given by the cup product with an element in $H^q (G,\mathbb{Z})$ is equivalent to silp $G$ being finite, where silp $G$ is the supremum of the injective lengths of the projective $\mathbb{Z}G$-modules.

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Type
Papers
Copyright
© The London Mathematical Society 2005

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Footnotes

This research was partially supported by the Greek Ministry of Education and the E. U. research programme ‘Pythagoras’.