Bloch's formula

In algebraic K-theory, a branch of mathematics, Bloch's formula, introduced by Spencer Bloch for K_2, states that the Chow group of a smooth variety X over a field is isomorphic to the cohomology of X with coefficients in the K-theory of the structure sheaf \mathcal{O}_X; that is,

\operatorname{CH}^q(X) = \operatorname{H}^q(X, K_q(\mathcal{O}_X))

where the right-hand side is the sheaf cohomology; K_q(\mathcal{O}_X) is the sheaf associated to the presheaf U \mapsto K_q(U), U Zariski open subsets of X. The general case is due to Quillen.[1] For q = 1, one recovers \operatorname{Pic}(X) = H^1(X, \mathcal{O}_X^*). (see also Picard group.)

The formula for the mixed characteristic is still open.

References

  1. For a sketch of the proof, besides the original paper, see http://www-bcf.usc.edu/~ericmf/lectures/zurich/zlec5.pdf
This article is issued from Wikipedia - version of the Thursday, January 01, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.