Uniqueness and symmetry of ground states for higher-order equations

Abstract

We establish uniqueness and radial symmetry of ground states for higher-order nonlinear Schrodinger and Hartree equations whose higher-order differentials have small coefficients. As an application, we obtain error estimates for higher-order approximations to the pseudo-relativistic ground state. Our proof adapts the strategy of Lenzmann (Anal PDE 2:1–27, 2009) using local uniqueness near the limit of ground states in a variational problem. However, in order to bypass difficulties from lack of symmetrization tools for higher-order differential operators, we employ the contraction mapping argument in our earlier work (Choi et al. 2017. arXiv:1705.09068 ) to construct radially symmetric real-valued solutions, as well as improving local uniqueness near the limit.