Complex Trkalian Fields and Solutions to Euler's Equations for the Ideal Fluid

Abstract

We consider solutions to the complex Trkalian equation,~ ∇ × = , where~ is a 3 component vector function with each component in the complex field, and may be expressed in the form~ = eig ∇ F, with~g real and~F complex. We find, there are precisely two classes of solutions; one where~g is a Cartesian variable and one where~g is the spherical radial coordinate. We consider these flows to be the simplest of all exact 3-d solutions to the Euler's equation for the ideal incompressible fluid. The novel approach we use in solving for these classes of solutions to these 3-dimensional vector pdes involves differential geometric techniques: one may employ the method to generate solutions to other classes of vector pdes.

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