On the orbital instability of excited states for the NLS equation with the δ-interaction on a star graph

Abstract

We study the nonlinear Schr\"odinger equation (NLS) on a star graph G. At the vertex an interaction occurs described by a boundary condition of delta type with strength α∈ R. We investigate an orbital instability of the standing waves eiω t(x) of NLS-δ equation with attractive power nonlinearity on G when the profile (x) has mixed structure (i.e. has bumps and tails). In our approach we essentially use the extension theory of symmetric operators by Krein - von Neumann, and the analytic perturbations theory, avoiding the variational techniques standard in the stability study. We also prove orbital stability of the unique standing wave solution of NLS-δ equation with repulsive nonlinearity.