Artin–Verdier duality


In mathematics, Artin–Verdier duality is a duality theorem for constructible abelian sheaves over the spectrum of a ring of algebraic numbers, introduced by, that generalizes Tate duality.
It shows that, as far as etale cohomology is concerned, the ring of integers in a number field behaves like a 3-dimensional mathematical object.

Statement

Let X be the spectrum of the ring of integers in a totally imaginary number field K, and F a constructible étale abelian sheaf on X. Then the Yoneda pairing
is a non-degenerate pairing of finite abelian groups, for every integer r.
Here, Hr is the r-th étale cohomology group of the scheme X with values in F, and Extr is the group of r-extensions of the étale sheaf G by the étale sheaf F in the category of étale abelian sheaves on X. Moreover, Gm denotes the étale sheaf of units in the structure sheaf of X.
proved Artin–Verdier duality for constructible, but not necessarily torsion sheaves. For such a sheaf F, the above pairing induces isomorphisms
where

Finite flat group schemes

Let U be an open subscheme of the spectrum of the ring of integers in a number field K, and F a finite flat commutative group scheme over U. Then the cup product defines a non-degenerate pairing
of finite abelian groups, for all integers r.
Here FD denotes the Cartier dual of F, which is another finite flat commutative group scheme over U. Moreover, is the r-th flat cohomology group of the scheme U with values in the flat abelian sheaf F, and is the r-th flat cohomology with compact supports of U with values in the flat abelian sheaf F.
The flat cohomology with compact supports is defined to give rise to a long exact sequence
The sum is taken over all places of K, which are not in U, including the archimedean ones. The local contribution Hr is the Galois cohomology of the Henselization Kv of K at the place v, modified a la Tate:
Here is a separable closure of