Local-in-time existence of free-surface 3D Euler flow with H2+δ initial vorticity in a neighborhood of the free boundary

Abstract

We consider the three-dimensional Euler equations in a domain with a free boundary with no surface tension. We assume that u0 ∈ H2.5+δ is such that curl\,u0 ∈ H2+δ in an arbitrarily small neighborhood of the free boundary, and we use Lagrangian approach to derive an a~priori estimate that can be used to prove local-in-time existence and uniqueness of solutions under the Rayleigh-Taylor stability condition.

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