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Existence of knotted vortex tubes in steady Euler flows

Published 23 Oct 2012 in math.AP, math-ph, math.DS, and math.MP | (1210.6271v2)

Abstract: We prove the existence of knotted and linked thin vortex tubes for steady solutions to the incompressible Euler equation in R3. More precisely, given a finite collection of (possibly linked and knotted) disjoint thin tubes in R3, we show that they can be transformed with a Cm-small diffeomorphism into a set of vortex tubes of a Beltrami field that tends to zero at infinity. The structure of the vortex lines in the tubes is extremely rich, presenting a positive-measure set of invariant tori and infinitely many periodic vortex lines. The problem of the existence of steady knotted vortex tubes can be traced back to Lord Kelvin.

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