Zeta functions associated to admissible representations of compact p-adic Lie groups

Abstract

Let G be a profinite group. A strongly admissible smooth representation of G over C decomposes as a direct sum π ∈ Irr(G) mπ() \, π of irreducible representations with finite multiplicities mπ() such that for every positive integer n the number rn() of irreducible constituents of dimension n is finite. Examples arise naturally in the representation theory of reductive groups over non-archimedean local fields. In this article we initiate an investigation of the Dirichlet generating function \[ ζ (s) = Σn=1∞ rn() n-s = Σπ ∈ Irr(G) mπ()( π)s \] associated to such a representation . Our primary focus is on representations = IndHG(σ) of compact p-adic Lie groups G that arise from finite dimensional representations σ of closed subgroups H via the induction functor. In addition to a series of foundational results - including a description in terms of p-adic integrals - we establish rationality results and functional equations for zeta functions of globally defined families of induced representations of potent pro-p groups. A key ingredient of our proof is Hironaka's resolution of singularities, which yields formulae of Denef-type for the relevant zeta functions. In some detail, we consider representations of open compact subgroups of reductive p-adic groups that are induced from parabolic subgroups. Explicit computations are carried out by means of complementing techniques: (i) geometric methods that are applicable via distance-transitive actions on spherically homogeneous rooted trees and (ii) the p-adic Kirillov orbit method. Approach (i) is closely related to the notion of Gelfand pairs and works equally well in positive defining characteristic.