Global Strong Solutions to Incompressible Nematic Liquid Crystal Flow

Abstract

In this paper, we consider the Dirichlet problem of inhomogeneous incompressible nematic liquid crystal equations in bounded smooth domains of two or three dimensions. We prove the global existence and uniqueness of strong solutions with initial data being of small norm but allowed to have vacuum. More precisely, for two dimensional case, we only require that the basic energy |0u0|L22+|∇ d0|L22 is small, while for three dimensional case, we ask for the smallness of the production of the basic energy and the quantity |∇ u0|L22+|∇2d0|L22. Our efforts mainly center on the establishment of the time independent a priori estimate on local strong solutions. Taking advantage of such a priori estimate, we extend the local strong solution to the whole time, obtaining the global strong solution.