Eigenvalue counting function for Robin Laplacians on conical domains

Abstract

We study the discrete spectrum of the Robin Laplacian Qα in L2(), \[ u - u, ∂ u∂ n=α u on ∂, \] where ⊂ R3 is a conical domain with a regular cross-section ⊂ S2, n is the outer unit normal, and α>0 is a fixed constant. It is known from previous papers that the bottom of the essential spectrum of Qα is -α2 and that the finiteness of the discrete spectrum depends on the geometry of the cross-section. We show that the accumulation of the discrete spectrum of Qα is determined by the discrete spectrum of an effective Hamiltonian defined on the boundary and far from the origin. By studying this model operator, we prove that the number of eigenvalues of Qα in (-∞,-α2-λ), with λ>0, behaves for λ0 as \[ α28π λ ∫∂ +(s)2d s +o(1λ), \] where + is the positive part of the geodesic curvature of the cross-section boundary.