Near soliton evolution for 2-equivariant Schr\"odinger Maps in two space dimensions

Abstract

We consider equivariant solutions for the Schr\"odinger Map equation in 2+1 dimensions, with values into S2. Within each equivariance class m ∈ Z this admits a lowest energy nontrivial steady state Qm, which extends to a two dimensional family of steady states by scaling and rotation. If |m| ≥ 3 then these ground states are known to be stable in the energy space H1, whereas instability and even finite time blow-up along the ground state family may occur if |m| = 1. In this article we consider the most delicate case |m| = 2. Our main result asserts that small H1 perturbations of the ground state Q2 yield global in time solutions, which satisfy global dispersive bounds. Unlike the higher equivariance classes, here we expect solutions to move arbitrarily far along the soliton family; however, we are able to provide a time dependent bound on the growth of the scale modulation parameter. We also show that within the equivariant class the ground state is stable in a slightly stronger topology X ⊂ H1.