Towards a Jordan decomposition of blocks of finite reductive groups

Abstract

∈put amssym.def ∈put amssym.tex Let G be a connected algebraic reductive group over an algebraic closure of a prime field Fp, defined over Fq thanks to a Frobenius F. Let be a prime different from p. Let B be an -block of the subgroup of rational points GF. Under mild restrictions on , we show the existence of an algebraic reductive group H defined over Fq via a Frobenius F, and of a unipotent -block b of HF such that : the respective defect groups of b and B are isomorphic, the associated Brauer categories are isomorphic and there is a height preserving one-to-one map from the set of irreducible representations of b onto the set of irreducible representations of B.