English

Suspension spectra and higher stabilization

Algebraic Topology 2017-05-12 v3

Abstract

We prove that the stabilization of spaces functor---the classical construction of associating a spectrum to a pointed space by tensoring with the sphere spectrum---satisfies homotopical descent on objects and morphisms. This is the stabilization analog of the Quillen-Sullivan theory main result that the rational chains (resp. cochains) functor participates in a derived equivalence with certain coalgebra (resp. algebra) complexes, after restriction to 1-connected spaces up to rational equivalence. In more detail, we prove that the stabilization of spaces functor participates in a derived equivalence with certain coalgebra spectra (where the stabilization construction naturally lands), after restriction to 1-connected spaces up to weak equivalence. This resolves in the affirmative the infinite case, involving stabilization and suspension spectra, of a question/conjecture posed by Tyler Lawson on (iterated) suspension spaces almost ten years ago. A key ingredient of our proof, of independent interest, is a higher stabilization theorem for spaces that provides strong estimates for the uniform cartesian-ness of certain cubical diagrams associated to n-fold iterations of the spaces-level stabilization map; this is the stabilization analog of Dundas' higher Hurewicz theorem.

Keywords

Cite

@article{arxiv.1612.08623,
  title  = {Suspension spectra and higher stabilization},
  author = {Jacobson R. Blomquist and John E. Harper},
  journal= {arXiv preprint arXiv:1612.08623},
  year   = {2017}
}

Comments

18 pages. Several improvements in the text. Details and diagrams added to help readers understand the cosimplicial relations. arXiv admin note: substantial text overlap with arXiv:1612.08622, arXiv:1611.04157

R2 v1 2026-06-22T17:35:09.326Z