The spectrum of geodesic balls on spherically symmetric manifolds

Abstract

We study the Dirichlet spectrum of the Laplace operator on geodesic balls centred at a pole of spherically symmetric manifolds. We first derive a Hadamard--type formula for the dependence of the first eigenvalue λ1 on the radius r of the ball, which allows us to obtain lower and upper bounds for λ1 in specific cases. For the sphere and hyperbolic space, these bounds are asymptotically sharp as r approaches zero and we see that while in two dimensions λ1 is bounded from above by the first two terms in the asymptotics for small r, for dimensions four and higher the reverse inequality holds. In the general case we derive the asymptotic expansion of λ1 for small radius and determine the first three terms explicitly. For compact manifolds we carry out similar calculations as the radius of the geodesic ball approaches the diameter of the manifold. In the latter case we show that in even dimensions there will always exist logarithmic terms in these expansions.