Wellposedness of nonlinear flows on manifolds of bounded geometry

Eric Bahuaud, Christine Guenther, James Isenberg, Rafe Mazzeo

Published 2022-10-28Version 1

We present simple conditions which ensure that a strongly elliptic operator $L$ generates an analytic semigroup on H\"older spaces on an arbitrary complete manifold of bounded geometry. This is done by establishing the equivalent property that $L$ is "sectorial", a condition that specifies the decay of the resolvent $(\lambda I - L)^{-1}$ as $\lambda$ diverges from the H\"older spectrum of $L$. As one step, we prove existence of this resolvent if $\lambda$ is sufficiently large, and on this general class of manifolds, use a geometric microlocal version of the semiclassical pseudodifferential calculus. The properties of $L$ and $e^{-tL}$ we obtain can then be used to prove wellposedness of a wide class of nonlinear flows. We illustrate this by proving wellposedness on H\"older spaces of the flow associated to the ambient obstruction tensor on complete manifolds of bounded geometry.