English

Categorical Foundations for K-Theory

K-Theory and Homology 2011-11-15 v1 Algebraic Geometry Algebraic Topology Category Theory

Abstract

Recall that the definition of the KK-theory of an object C (e.g., a ring or a space) has the following pattern. One first associates to the object C a category A_C that has a suitable structure (exact, Waldhausen, symmetric monoidal, ...). One then applies to the category A_C a "KK-theory machine", which provides an infinite loop space that is the KK-theory K(C) of the object C. We study the first step of this process. What are the kinds of objects to be studied via KK-theory? Given these types of objects, what structured categories should one associate to an object to obtain KK-theoretic information about it? And how should the morphisms of these objects interact with this correspondence? We propose a unified, conceptual framework for a number of important examples of objects studied in KK-theory. The structured categories associated to an object C are typically categories of modules in a monoidal (op-)fibred category. The modules considered are "locally trivial" with respect to a given class of trivial modules and a given Grothendieck topology on the object C's category.

Keywords

Cite

@article{arxiv.1111.3335,
  title  = {Categorical Foundations for K-Theory},
  author = {Nicolas Michel},
  journal= {arXiv preprint arXiv:1111.3335},
  year   = {2011}
}

Comments

176 + xi pages. This monograph is a revised and augmented version of my PhD thesis. The official thesis is available at http://library.epfl.ch/en/theses/?nr=4861

R2 v1 2026-06-21T19:35:58.656Z