Integral estimates for the trace of symmetric operators

Let $\Phi:TM\to TM$ be a positive-semidefinite symmetric operator of class $C^1$ defined on a complete non-compact manifold $M$ isometrically immersed in a Hadamard space $\bar{M}$. In this paper, we given conditions on the operator $\Phi$ and on the second fundamental form to guarantee that either $\Phi\equiv 0$ or the integral $\int_M \mathrm{tr}\,\Phi dM$ is infinite. We will given some applications. The first one says that if $M$ admits an integrable distribution whose integrals are minimal submanifolds in $\bar{M}$ then the volume of $M$ must be infinite. Another application states that if the sectional curvature of $\bar{M}$ satisfies $\bar{K}\leq -c^2$, for some $c\geq 0$, and $\lambda:M^m\to [0,\infty)$ is a nonnegative $C^1$ function such that gradient vector of $\lambda$ and the mean curvature vector $H$ of the immersion satisfy $|H+p\nabla \lambda|\leq (m-1)c \lambda$, for some $p\geq 1$, then either $\lambda\equiv 0$ or the integral $\int_M \lambda^s dM$ is infinite, for all $1\leq s\leq p$.