A remark on normal forms and the "upside-down" I-method for periodic NLS: growth of higher Sobolev norms

Abstract

We study growth of higher Sobolev norms of solutions to the one-dimensional periodic nonlinear Schrodinger equation (NLS). By a combination of the normal form reduction and the upside-down I-method, we establish \|u(t)\|Hs (1+|t|)α (s-1)+ with α = 1 for a general power nonlinearity. In the quintic case, we obtain the above estimate with α = 1/2 via the space-time estimate due to Bourgain [4], [5]. In the cubic case, we concretely compute the terms arising in the first few steps of the normal form reduction and prove the above estimate with α = 4/9. These results improve the previously known results (except for the quintic case.) In Appendix, we also show how Bourgain's idea in [4] on the normal form reduction for the quintic nonlinearity can be applied to other powers.