Equivariant stability of vortices in Manton's Chern-Simons-Schr\"odinger system on the hyperbolic plane

Abstract

In this work we study magnetic vortices on the hyperbolic plane for a Chern-Simons-Schr\"odinger system introduced by Manton. The model can be thought of as the Schr\"odinger analogue of the Abalian-Higgs model. It consists of a system of partial differential equations, where the complex Higgs field evolves according to a nonlinear Schr\"odinger equation coupled to an electromagnetic field A. We restrict attention to the self-dual (Bogomolny) case under equivariance symmetry. For each m≥ 1 we prove the asymptotic stability of the equivariant vortex of degree m. The main novelties are unraveling the favorable structure of the equations after a nonlinear Darboux transform, and the analysis of the elliptic operator relating the original and the transformed variables.