KAM for the Non-Linear Schr\"odinger Equation

Abstract

We consider the d-dimensional nonlinear Schr\"odinger equation under periodic boundary conditions: -i u=- u+V(x)*u+ F u(x,u, u), u=u(t,x), x∈d where V(x)=Σ V(a)eia,x is an analytic function with V real, and F is a real analytic function in u, u and x. (This equation is a popular model for the `real' NLS equation, where instead of the convolution term V*u we have the potential term Vu.) For =0 the equation is linear and has time--quasi-periodic solutions u, u(t,x)=Σa∈ u(a)ei(|a|2+ V(a))teia,x (| u(a)|>0), where is any finite subset of d. We shall treat ωa=|a|2+ V(a), a∈, as free parameters in some domain U⊂. This is a Hamiltonian system in infinite degrees of freedom, degenerate but with external parameters, and we shall describe a KAM-theory which, under general conditions, will have the following consequence: If || is sufficiently small, then there is a large subset U' of U such that for all ω∈ U' the solution u persists as a time--quasi-periodic solution which has all Lyapounov exponents equal to zero and whose linearized equation is reducible to constant coefficients.