E-infinity structure in hyperoctahedral homology
Abstract
Hyperoctahedral homology for involutive algebras is the homology theory associated to the hyperoctahedral crossed simplicial group. It is related to equivariant stable homotopy theory via the homology of equivariant infinite loop spaces. In this paper we show that there is an E-infinity algebra structure on the simplicial module that computes hyperoctahedral homology. We deduce that hyperoctahedral homology admits Dyer-Lashof homology operations. Furthermore, there is a Pontryagin product which gives hyperoctahedral homology the structure of an associative, graded-commutative algebra. We also give an explicit description of hyperoctahedral homology in degree zero. Combining this description and the Pontryagin product we show that hyperoctahedral homology fails to preserve Morita equivalence.
Cite
@article{arxiv.2108.05154,
title = {E-infinity structure in hyperoctahedral homology},
author = {Daniel Graves},
journal= {arXiv preprint arXiv:2108.05154},
year = {2023}
}
Comments
14 pages. New section added treating hyperoctahedral homology in degree zero. To appear in Homology, Homotopy and Applications