Standing waves with prescribed L2-norm to nonlinear Schr\"odinger equations with combined inhomogeneous nonlinearities

Abstract

In this paper, we are concerned with solutions to the following nonlinear Schr\"odinger equation with combined inhomogeneous nonlinearities, - u + λ u= μ |x|-b|u|q-2 u + |x|-b|u|p-2 u in \,\, N, under the L2-norm constraint ∫N |u|2 \, dx=c>0, where N ≥ 1, μ = 1, 2<q<p<2(N-b)/(N-2)+, 0<b<\2, N\ and the parameter λ ∈ appearing as Lagrange multiplier is unknown. In the mass subcritical case, we establish the compactness of any minimizing sequence to the minimization problem given by the underlying energy functional restricted on the constraint. As a consequence of the compactness of any minimizing sequence, orbital stability of minimizers is derived. In the mass critical and supercritical cases, we investigate the existence, radial symmetry and orbital instability of solutions. Meanwhile, we consider the existence, radial symmetry and algebraical decay of ground states to the corresponding zero mass equation with defocusing perturbation. In addition, dynamical behaviors of solutions to the Cauchy problem for the associated dispersive equation are discussed.