Algebraic and Real K-theory of Algebraic varieties
Abstract
Let V be a smooth variety defined over the real numbers. Every algebraic vector bundle on V induces a complex vector bundle on the underlying topological space V(C), and the involution coming from complex conjugation makes it a Real vector bundle in the sense of Atiyah. This association leads to a natural map from the algebraic K-theory of V to Atiyah's ``Real K-theory'' of V(C). Passing to finite coefficients Z/m, we show that the maps from Kn(V ; Z/m) to KR -n(V(C);Z/m) are isomorphisms when n is at least the dimension of V, at least when m is a power of two. Our key descent result is a comparison of the K-theory space of V with the homotopy fixed points (for complex conjugation) of the K-theory space of the complex variety V(C). When V is the affine variety of the d-sphere S, it turns out that KR*(V(C))=KO*(S). In this case we show that for all nonnegative n we have Kn(V ; Z/m) = KO-n(S ; Z/m).
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