Fourier positivity for spherical functions I: split tori and spherical principal series

Abstract

We prove Fourier positivity for spherical functions on a semisimple linear algebraic group G over a local field restricted to its split tori A for unitary principal series parameters of G. For SLn(F), where F is a local field, we obtain an explicit recursive formula for the Fourier transform on the diagonal split torus in terms of local Rankin--Selberg factors for GLn× GLn-1, together with uniform exponential lower bounds in the spectral parameters. The main input is a Plancherel expansion for the restriction of a GLn(F)-spherical function to GLn-1(F). Its coefficients are spherical periods computed by Rankin--Selberg theory. Positivity of the Fourier transform for general semisimple groups with unitary principal series parameters is obtained by reduction to full-rank subgroups of type A. The results are motivated by variance non-vanishing problems for mixing abelian actions on homogeneous spaces.