Fourier dimension and spectral gaps for hyperbolic surfaces

Abstract

We obtain an essential spectral gap for a convex co-compact hyperbolic surface M= H2 which depends only on the dimension δ of the limit set. More precisely, we show that when δ>0 there exists 0=0(δ)>0 such that the Selberg zeta function has only finitely many zeroes s with s>δ-0. The proof uses the fractal uncertainty principle approach developed by Dyatlov-Zahl [arXiv:1504.06589]. The key new component is a Fourier decay bound for the Patterson-Sullivan measure, which may be of independent interest. This bound uses the fact that transformations in the group are nonlinear, together with estimates on exponential sums due to Bourgain which follow from the discretized sum-product theorem in R.