A Local Faber-Krahn inequality and Applications to Schr\"odinger's Equation

Abstract

We prove a local Faber-Krahn inequality for solutions u to the Dirichlet problem for + V on an arbitrary domain in Rn. Suppose a solution u assumes a global maximum at some point x0 ∈ and u(x0)>0. Let T(x0) be the smallest time at which a Brownian motion, started at x0, has exited the domain with probability 1/2. For nice (e.g., convex) domains, T(x0) d(x0,∂)2 but we make no assumption on the geometry of the domain. Our main result is that there exists a ball B of radius T(x0)1/2 such that \| V \|Ln2, 1( B) cn > 0, provided that n 3. In the case n = 2, the above estimate fails and we obtain a substitute result. The Laplacian may be replaced by a uniformly elliptic operator in divergence form. This result both unifies and strenghtens a series of earlier results.