Power Operations and Coactions in Highly Commutative Homology Theories

  • Andrew Baker

    University of Glasgow, UK

Abstract

Power operations in the homology of infinite loop spaces, and or ring spectra have a long history in Algebraic Topology. In the case of ordinary mod homology for a prime , the power operations of Kudo, Araki, Dyer and Lashof interact with Steenrod operations via the Nishida relations, but for many purposes this leads to complicated calculations once iterated applications of these functions are required. On the other hand, the homology coaction turns out to provide tractable formulae better suited to exploiting multiplicative structure.

We show how to derive suitable formulae for the interaction between power operations and homology coactions in a wide class of examples; our approach makes crucial use of modern frameworks for spectra with well behaved smash products. In the case of mod homology, our formulae extend those of Bisson and Joyal to odd primes. We also show how to exploit our results in sample calculations, and produce some apparently new formulae for the Dyer-Lashof action on the dual Steenrod algebra.

Cite this article

Andrew Baker, Power Operations and Coactions in Highly Commutative Homology Theories. Publ. Res. Inst. Math. Sci. 51 (2015), no. 2, pp. 237–272

DOI 10.4171/PRIMS/154