Fourier transforms of Gibbs measures for the Gauss map

Abstract

We investigate under which conditions a given invariant measure μ for the dynamical system defined by the Gauss map x 1/x 1 is a Rajchman measure with polynomially decaying Fourier transform |μ()| = O(||-η), as || ∞. We show that this property holds for any Gibbs measure μ of Hausdorff dimension greater than 1/2 with a natural large deviation assumption on the Gibbs potential. In particular, we obtain the result for the Hausdorff measure and all Gibbs measures of dimension greater than 1/2 on badly approximable numbers, which extends the constructions of Kaufman and Queff\'elec-Ramar\'e. Our main result implies that the Fourier-Stieltjes coefficients of the Minkowski's question mark function decay to 0 polynomially answering a question of Salem from 1943. As an application of the Davenport-Erdos-LeVeque criterion we obtain an equidistribution theorem for Gibbs measures, which extends in part a recent result by Hochman-Shmerkin. Our proofs are based on exploiting the nonlinear and number theoretic nature of the Gauss map and large deviation theory for Hausdorff dimension and Lyapunov exponents.