On the flow of non-axisymmetric perturbations of cylinders via surface diffusion

Abstract

We study the surface diffusion flow acting on a class of general (non--axisymmetric) perturbations of cylinders Cr in I \! R3. Using tools from parabolic theory on uniformly regular manifolds, and maximal regularity, we establish existence and uniqueness of solutions to surface diffusion flow starting from (spatially--unbounded) surfaces defined over Cr via scalar height functions which are uniformly bounded away from the central cylindrical axis. Additionally, we show that Cr is normally stable with respect to 2 π--axially--periodic perturbations if the radius r > 1,and unstable if 0 < r < 1. Stability is also shown to hold in settings with axial Neumann boundary conditions.