Temporal regularity of symmetric stochastic p-Stokes systems

Abstract

We study the symmetric stochastic p-Stokes system, p ∈ (1,∞), in a bounded domain. The results are two-folded. First, we show that in the context of analytically weak solutions the stochastic pressure -- related to non-divergence free stochastic forces -- enjoys almost -1/2 temporal derivatives on a Besov scale. Second, we verify that the velocity component~u of strong solutions obeys 1/2 temporal derivatives in an exponential Nikolskii space. Moreover, we prove that the non-linear symmetric gradient V( u) = ( + | u|)(p-2)/2 u, ≥ 0, has 1/2 temporal derivatives in a Nikolskii space.