On maximizing the fundamental frequency of the complement of an obstacle

Abstract

Let ⊂ Rn be a bounded domain satisfying a Hayman-type asymmetry condition, and let D be an arbitrary bounded domain referred to as "obstacle". We are interested in the behaviour of the first Dirichlet eigenvalue λ1( (x+D)) . First, we prove an upper bound on λ1( (x+D)) in terms of the distance of the set x+D to the set of maximum points x0 of the first Dirichlet ground state φλ1 > 0 of . In short, a direct corollary is that if equation μ := xλ1( (x+D)) equation is large enough in terms of λ1() , then all maximizer sets x+D of μ are close to each maximum point x0 of φλ1 . Second, we discuss the distribution of φλ1() and the possibility to inscribe wavelength balls at a given point in . Finally, we specify our observations to convex obstacles D and show that if μ is sufficiently large with respect to λ1() , then all maximizers x+D of μ contain all maximum points x0 of φλ1() .