Inf-sup estimates for the Stokes problem in a periodic channel

Abstract

We derive estimates of the Babuska-Brezzi inf-sup constant β for two-dimensional incompressible flow in a periodic channel with one flat boundary and the other given by a periodic, Lipschitz continuous function h. If h is a constant function (so the domain is rectangular), we show that periodicity in one direction but not the other leads to an interesting connection between β and the unitary operator mapping the Fourier sine coefficients of a function to its Fourier cosine coefficients. We exploit this connection to determine the dependence of β on the aspect ratio of the rectangle. We then show how to transfer this result to the case that h is C1,1 or even C0,1 by a change of variables. We avoid non-constructive theorems of functional analysis in order to explicitly exhibit the dependence of β on features of the geometry such as the aspect ratio, the maximum slope, and the minimum gap thickness (if h passes near the substrate). We give an example to show that our estimates are optimal in their dependence on the minimum gap thickness in the C1,1 case, and nearly optimal in the Lipschitz case.