Lipschitz regularity of harmonic map heat flows into $CAT(0)$ spaces

Abstract: In 1964, Eells and Sampson proved the famous long-time existence and convergence for the harmonic map heat flow into non-positively curved Riemannian manifolds. Subsequently, Hamilton investigated the corresponding initial-boundary problem. In 1992, Gromov and Schoen developed a variational theory of harmonic maps into $CAT(0)$ metric spaces. This progress naturally motivated the study of the harmonic map heat flow into singular metric spaces. In the 1990s, Mayer and Jost independently studied convex functionals on $CAT(0)$ spaces and extended Crandall-Liggett's theory of gradient flows from Banach spaces to $CAT(0)$ spaces to obtain the weak solutions, called semi-group weak solutions, for the harmonic map heat flow into $CAT(0)$ spaces. Very recently, Lin, Segatti, Sire, and Wang used an elliptic approximation method to obtain another class of weak solutions, called suitable weak solutions in the sense of the Evolution Variational Inequality (EVI), to the harmonic map heat flow into $CAT(0)$ spaces. They proved that these solutions are Lipschitz in space and $\frac{1}{2}$-Hölder continuous in time. Since the semi-group weak solutions of the harmonic map heat flow enjoy the favorable long-time existence, uniqueness and well established long-time behaviors, it is natural to ask if the semi-group solutions possess the Lipschitz regularity. In the present paper, we answer this question. We show that the semi-group weak solutions of the harmonic map heat flow into CAT(0) spaces are Lipschitz continuous in both space and time. We also establish an Eells-Sampson-type Bochner inequality.