Global well-posedness for the derivative nonlinear Schr\"odinger equation

Abstract

This paper is dedicated to the study of the derivative nonlinear Schr\"odinger equation on the real line. The local well-posedness of this equation in the Sobolev spaces is well understood since a couple of decades, while the global well-posedness is not completely settled. For the latter issue, the best known results up-to-date concern either Cauchy data in H12 with mass strictly less than 4π or general initial conditions in the weighted Sobolev space H2, 2. In this article, we prove that the derivative nonlinear Schr\"odinger equation is globally well-posed for general Cauchy data in H12 and that furthermore the H12 norm of the solutions remains globally bounded in time. One should recall that for Hs, with s < 1 / 2 , the associated Cauchy problem is ill-posed in the sense that uniform continuity with respect to the initial data fails. Thus, our result closes the discussion in the setting of the Sobolev spaces Hs. The proof is achieved by combining the profile decomposition techniques with the integrability structure of the equation.