On non-elliptic symplectic manifolds

Abstract

Let M be a closed symplectic manifold of dimension 2n with non-ellipticity. We can define an almost K\"ahler structure on M by using the given symplectic form. Hence, we have a =π1(M)-invariant almost K\"ahler structure on the universal covering, M, of M. Using Darboux coordinate charts, we globally deform the given almost K\"ahler structure on M off a Lebesgue measure zero subset to obtain a -invariant Lipschitz K\"ahler flat structure on M which is -homotopy equivalent to the given almost K\"ahler structure. Analogous to Teleman's L2-Hodge decomposition on PL manifolds or Lipschitz Riemannian manifolds, we give a L2-Hodge decomposition theorem on M with respect to the Lipschitz K\"ahler flat metric. Using an argument of Gromov, we give a vanishing theorem for L2 harmonic p-forms, p=n (resp. a non-vanishing theorem for L2 harmonic n-forms) on M, then the signed Euler characteristic satisfies (-1)n(M)≥0 (resp. (-1)n(M)>0). Similarly, for any closed even dimensional Riemannian manifold (M, g), we can construct a -invariant Lipschitz K\"ahler flat structure on the universal covering, ( M, g), of (M, g) which is -homotopy equivalent to and quasi-isometric to the metric g. As an application, using Gromov's method we show that the Chern-Hopf conjecture holds true in closed even dimensional Riemannian manifolds with nonpositive curvature (resp. strictly negative curvature), it gives a positive answer to a Yau's problem due to S. S. Chern and H. Hopf.