Long time asymptotics for the focusing nonlinear Schr\"odinger equation in the solitonic region with the presence of high-order discrete spectrum

Abstract

In this paper, we use the ∂ steepest descent method to study the initial value problem for focusing nonlinear Schr\"odinger (fNLS) equation with non-generic weighted Sobolev initial data that allows for the presence of high-order discrete spectrum. More precisely, we shall characterize the properties of the eigenfunctions and scattering coefficients in the presence of high-order poles; further we formulate an appropriate enlarged RH problem; after a series of deformations, the RH problem is transformed into a solvable model. Finally, we obtain the asymptotic expansion of the solution of the fNLS equation in any fixed space-time cone: %as t ∞, equation* S(x1,x2,v1,v2):= (x,t)∈ R2: x=x0+vt, \ x0∈[x1,x2], v∈[v1,v2]. equation* Observing the result indicates that the solution of fNLS equation in this case satisfies the soliton resolution conjecture. The leading order term of this solution includes a high-order pole-soliton whose parameters are affected by soliton-soliton interactions through the cone and soliton-radiation interactions on continuous spectrum. The error term of this result is up to O(t-3/4) which comes from the corresponding ∂ equation.