Bounds on the growth of high Sobolev norms of solutions to Nonlinear Schrodinger Equations on R

Abstract

In this paper, we consider the cubic nonlinear Schrodinger equation, and the Hartree equation, with sufficiently regular convolution potential, both on the real line. We are interested in bounding the growth of high Sobolev norms of solutions to these equations. Since the cubic NLS is completely integrable, it makes sense to bound only the fractional Sobolev norms of solutions, whose initial data is of restricted smoothness. For the Hartree equation, we consider all Sobolev norms. For both equations, we derive our results by using an appropriate frequency decomposition. In the case of the cubic NLS, this method allows us to recover uniform bounds on the integral Sobolev norms, up to a factor of t0+. For the Hartree equation, we use the same method as in our previous work on S1, and the improved Strichartz estimate to obtain a better bound than we previously obtained in the periodic setting.