Smoothness of the trajectories of ideal fluid particles with Yudovich vorticities in a planar bounded domain

Details Smoothness of the trajectories of ideal fluid particles with Yudovich vorticities in a planar bounded domain Smoothness of the trajectories of ideal fluid particles with Yudovich vorticities in a planar bounded domain

2010-04-10

arxiv.org/abs/1004.1718v1

Mathematics

Analysis of PDEs

Scientific paper

We consider the incompressible Euler equations in a (possibly multiply connected) bounded domain of R^2, for flows with bounded vorticity, for which Yudovich proved, in 1963, global existence and uniqueness of the solution. We prove that if the boundary of the domain is C^infty (respectively Gevrey of order M > 1) then the trajectories of the fluid particles are C^infty (resp. Gevrey of order M + 2). Our results also cover the case of "slightly unbounded" vorticities for which Yudovich extended his analysis in 1995. Moreover if in addition the initial vorticity is Holder continuous on a part of the domain then this Holder regularity propagates smoothly along the flow lines. Finally we observe that if the vorticity is constant in a neighborhood of the boundary, the smoothness of the boundary is not necessary for these results to hold.

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