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Local Well-Posedness of the Skew Mean Curvature Flow for Small Data in d≧2 Dimensions.

Abstract

The skew mean curvature flow is an evolution equation for d dimensional manifolds embedded in Rd+2 (or more generally, in a Riemannian manifold). It can be viewed as a Schrödinger analogue of the mean curvature flow, or alternatively as a quasilinear version of the Schrödinger Map equation. In an earlier paper, the authors introduced a harmonic/Coulomb gauge formulation of the problem, and used it to prove small data local well-posedness in dimensions d≧4. In this article, we prove small data local well-posedness in low-regularity Sobolev spaces for the skew mean curvature flow in dimension d≧2. This is achieved by introducing a new, heat gauge formulation of the equations, which turns out to be more robust in low dimensions.

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