Improved fractal Weyl bounds for convex cocompact hyperbolic surfaces and large resonance-free regions (2301.03023v1)

Abstract: Let $X$ be a convex cocompact hyperbolic surface and let $\delta$ be the dimension of its limit set. Let $N_X(\sigma,T)$ be the number of resonances for $X$ inside the box $[\sigma,\delta]+i[0,T]$. We prove that for all $\sigma > \delta/2$ we have $$ N_X(\sigma,T) \ll_\epsilon T^{1 + \delta - \frac{3\delta +2}{2\delta + 2} (2\sigma - \delta) + \epsilon}. $$ This improves upon previous "improved" fractal Weyl bounds of Naud \cite{Naud14} and Dyatlov \cite{Dya19}. Moreover, this bound implies that there are resonance-free rectangular boxes of arbitrary height in the strip $$ \left{ \delta - \frac{\delta^2}{6\delta+4} < \mathrm{Re}(s) < \delta \right}. $$ We combine the approach of Naud \cite{Naud14} with the refined transfer operator machinery introduced by Dyatlov--Zworski \cite{DyZw18}, and we use a new bound for certain oscillatory integrals that arise naturally in our analysis.