Tensor Product K-theory is Rational Algebraic K-theory

Abstract

For a commutative ring R with unity, its algebraic K-theory space K(R) may be obtained by group-completing the symmetric monoidal category of finitely generated free R-modules under direct sum. A natural question is what happens when one group-completes with respect to the tensor product structure instead. In this note, we give a direct proof of the folklore theorem that the resulting group-completion is the rationalization of K(R), up to π0. We also discuss how a similar group-completion would give the p-perfection and, more generally, the localization of K(R) at any non-trivial multiplicatively closed subset S ⊂eq Z> 0. The localization statement can be recovered from a localization theorem of May. We give a plus-construction proof without using the full machinery of multiplicative infinite loop space theory.