On first and second eigenvalues of Riesz transforms in spherical and hyperbolic geometries

Abstract

In this note we prove an analogue of the Rayleigh-Faber-Krahn inequality, that is, that the geodesic ball is a maximiser of the first eigenvalue of some convolution type integral operators, on the sphere Sn and on the real hyperbolic space Hn. It completes the study of such question for complete, connected, simply connected Riemannian manifolds of constant sectional curvature. We also discuss an extremum problem for the second eigenvalue on Hn and prove the Hong-Krahn-Szeg\"o type inequality. The main examples of the considered convolution type operators are the Riesz transforms with respect to the geodesic distance of the space.