Ground states of the planar nonlinear Schrödinger--Newton system with a point interaction

Abstract

We establish sufficient conditions for the existence of ground states of the following normalized nonlinear Schrödinger--Newton system with a point interaction: \[ cases - Δαu = w u + βu |u|p - 2 &on ~ R2; \\ - Δw = 2 π|u|2 &on ~ R2; \\ \|u\|L22 = c, cases \] where p > 2; α, β∈ R and - Δα denotes the Laplacian of point interaction with scattering length (- 2 πα)- 1. Additionally, we show that critical points of the corresponding constrained energy functional are naturally associated with standing waves of the evolution problem \[ i ψ' (t) = - Δαψ(t) - ( |·| |ψ(t)|2) ψ(t) - βψ(t) |ψ(t)|p - 2. \]