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On G-spaces, Serre classes and G-nilpotency

Published online by Cambridge University Press:  24 October 2008

Peter Hilton
Affiliation:
Battelle Seattle Research Centre and Case Western Reserve University, Cleveland Hunter College and Graduate Centre of CUNY, New York, Case Western Reserve University, Cleveland
Joseph Roitberg
Affiliation:
Battelle Seattle Research Centre and Case Western Reserve University, Cleveland Hunter College and Graduate Centre of CUNY, New York, Case Western Reserve University, Cleveland
David Singer
Affiliation:
Battelle Seattle Research Centre and Case Western Reserve University, Cleveland Hunter College and Graduate Centre of CUNY, New York, Case Western Reserve University, Cleveland

Extract

0. Introduction. The concept of a nilpotent action on a nilpotent group was studied in (2), and was crucial to the definition of a nilpotent map (or nilpotent fibration) in (4). These ideas had, of course, already been treated systematically in (1). The concept found a new, and related, application to homotopy theory in (3), where the following situation was studied. Let X be a nilpotent space and let G be a group which ‘acts’on X. Here it is not strictly speaking necessary to specify the nature of the action, provided that there is an induced action of G on the homotopy and homology groups of X. Thus G might be a group of base-point preserving homeomorphisms of X, or a group of (based) homotopy classes of self-homotopy-equivalences of X. We then discussed in (3) questions related to the nilpotency of the induced actions of G on the homotopy and homology groups of X and also relativized the theory to a discussion of fibrations on which the group G acts; to obtain interesting results related to nilpotency, it turned out to be at least necessary to suppose the fibration FEB quasinilpotent (7), meaning that all spaces are connected and π1B acts nilpotently on the homology groups of F.

Type
Research Article
Copyright
Copyright © Cambridge Philosophical Society 1978

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References

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