A matrix Paley-Wiener theorem for non-connected p-adic reductive groups

Abstract

Let F be a local non archimedian field of characteristic 0, and G a non-connected reductive group over F. We denote G0 the connected component of the identity and assume the quotient G/G0 is abelian. For f a locally constant compactly supported function on G and π a complex smooth representation of G, we define the Fourier transform of f evaluated at π to be π(f) = ∫G f(g) π(g) \, dg, which is an endomorphism of the underlying vector space of π. We give a description of the image of this Fourier transform map : given, for every π in a certain family of induced representations of G, an endomorphism (π) of the underlying vector space, we provide necessary and sufficient conditions under which there exists a function f (necessarily unique) such that π(f) = (π) for all π in the family.