The mixed scalar curvature flow on a fiber bundle

We apply conformal flows of metrics restricted to the orthogonal distribution $D$ of a foliation to study the question: Which foliations admit a metric such that the leaves are totally geodesic and the mixed scalar curvature is positive? Our evolution operator includes the integrability tensor of $D$, and for the case of integrable orthogonal distribution the flow velocity is proportional to the mixed scalar curvature. We observe that the mean curvature vector $H$ of $D$ satisfies along the leaves the forced Burgers equation, this reduces to the linear Schr\"{o}dinger equation, whose potential function is a certain "non-umbilicity" measure of $D$. On order to show convergence of the solution metrics $g_t$ as $t\to\infty$, we normalize the flow, and instead of a foliation consider a fiber bundle $\pi: M\to B$ of a Riemannian manifold $(M, g_0)$. In this case, if the "non-umbilicity" of $D$ is smaller in a sense then the "non-integrability", then the limit mixed scalar curvature function is positive. For integrable $D$, we give examples with foliated surfaces and twisted products.