A universal Clebsch-Gordan filtration for GL2,A

Abstract

The aim of the paper is to study the group schemes G:=SL2, A, GL2,A and universal Clebsch-Gordan filtrations. Here A is a field or any commutative ring. If V:=A\e1,e2\ is the free rank 2 module on A and if we give V the "standard" structure as comodule on G, we may form the symmetric powers Symn(V) for n ≥ 1 an integer. If A is a field of characteristic zero, there is a direct sum decomposition of the tensor product Symn(V) Symm(V) into irreducible G-comodules and the main aim of the paper is to investigate if similar results hold over the ring of integers or a more general commutative ring such as a Dedekind domain. For A:=Z we will find that there is for any pair of integers 1 ≤ n ≤ m a finite filtration Fi ⊂eq Symn(V) Symm(V) with Fi/Fi+1 Symn+m-2i(V) for i=0,..,n. This implies there is a version of the Clebsch-Gordan formula valid in the Grothendieck group of coherent comodules on G. I also prove a similar result for GL2,A. I moreover prove that the group scheme G is not "completely reducible" in the sense that there are surjections φ: V → W of finite rank comodules on G that do not split. I also discuss the notion "good filtration" for torsion free comodules and give an explicit construction of an infinte set of non trival comodules with a good filtration. I give a functorial definition of the dual comodule of any comodule (V, ), where V is a free and finite rank A-module. This construction has the property that the double dual V** is canonically isomorphic to V as comodule. I calculate some explicit examples.