Improved Fractal Weyl upper bound in obstacle scattering (2301.11077v1)

Abstract: In this paper, we are interested in the problem of scattering by strictly convex obstacles in the plane. We provide an upper bound for the number $N(r,\gamma)$ of resonances in the box ${r \le \Re(\lambda) \le r + 1$; $\Im(\lambda) \ge - \gamma }$. It was proved in a work of S. Nonnenmacher, J. Sj{\"o}strand and M. Zworski (2014) that $N (r,\gamma) = O_\gamma (r^{d_H})$ where $2d_H + 1$ is the Hausdorff dimension of the trapped set of the billiard flow. In this article, we provide an improved upper bound in the band $0 \le \gamma < \gamma_{cl} /2$, where $\gamma_{cl}$ is the classical decay rate of the flow. This improved Weyl upper bound is in the spirit of the ones of F. Naud (2012) and S. Dyatlov (2019) in the case of convex co-compact surfaces, and of S. Dyatlov and L. Jin (2017) in the case of open quantum baker's maps.