Low regularity a priori estimates for the fourth order cubic nonlinear Schr\"odinger equation

Abstract

We consider the low regularity behavior of the fourth order cubic nonlinear Schr\"odinger equation (4NLS) align* cases i∂tu+∂x4u= u 2u, (t,x)∈ R× R\\ u(x,0)=u0(x)∈ Hs(R). cases align* In arXiv:1911.03253, the author showed that this equation is globally well-posed in Hs, s≥ -12 and ill-posedness in the sense that the solution map fails to be uniformly continuous for -1514<s<-12. Therefore, s=-12 is the lowest regularity that can be handled by the contraction argument. In spite of this ill-posedness result, we obtain a priori bound below s<-1/2. This a priori estimate guarantees the existence of a weak solution for -3/4<s<-1/2. But we cannot establish full well-posedness because of the lack of energy estimate of differences of solutions. Our method is inspired by Koch-Tataru KT2007. We use the Up and Vp based spaces adapted to frequency dependent time intervals on which the nonlinear evolution can be still described by linear dynamics.