Vey theorem in infinite dimensions and its application to KdV

Abstract

We consider an integrable infinite-dimensional Hamiltonian system in a Hilbert space H=\u=(u1+,u1-; u2+,u2-;....)\ with integrals I1, I2,... which can be written as Ij=1/2|Fj|2, where Fj:H 2, Fj(0)=0 for j=1,2,... . We assume that the maps Fj define a germ of an analytic diffeomorphism F=(F1,F2,...):H H, such that dF(0)=id, (F-id) is a -smoothing map (≥ 0) and some other mild restrictions on F hold. Under these assumptions we show that the maps Fj may be modified to maps Fj such that Fj-Fj=O(|u|2) and each 12|F'j|2 still is an integral of motion. Moreover, these maps jointly define a germ of an analytic symplectomorphism F: H H, the germ (F-id) is -smoothing, and each Ij is an analytic function of the vector (12|F'j|2,j1). Next we show that the theorem with =1$ applies to the KdV equation. It implies that in the vicinity of the origin in a functional space KdV admits the Birkhoff normal form and the integrating transformation has the form `identity plus a 1-smoothing analytic map'.