On a model for the Navier--Stokes equations using magnetization variables

Abstract

It is known that in a classical setting, the Navier--Stokes equations can be reformulated in terms of so-called magnetization variables w that satisfy equationAbsmagform ∂tw + (P w ·∇)w + (∇ P w) w - w =0, equation and relate to the velocity u via a Leray projection u=P w. We will prove the equivalence of these formulations in the setting of weak solutions that are also in L∞(0,T;H1/2) L2(0,T;H3/2) on the 3-dimensional torus. Our main focus is the proof of global well-posedness in H1/2 for a new variant of this system, where P w is replaced by w in the second nonlinear term: equationAbsSimplified ∂tw + (P w ·∇)w + 12∇|w|2- w =0. equation This is based on a maximum principle, analogous to a similar property of the Burgers equations.