Analytical solutions for distributed multipolar vortex equilibria on a sphere

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Abstract

Analytical solutions of the steady Euler equations corresponding to stationary multipolar vortices on a sphere are derived. The solutions represent localized regions of distributed vorticity consisting of uniform vortex patches with a finite set of superposed point vortices. The mathematical method combines stereographic projection with conformal mapping theory to generalize a class of exact solutions for planar multipolar vortices developed by Crowdy [Phys. Fluids 11, 2556 (1999)] to the physically more important scenario of multipolar vortices on a spherical surface. The solutions are believed to be the first examples of analytical solutions of the Euler equations on a sphere involving patches of distributed vorticity with nontrivial shape. © 2003 American Institute of Physics.

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APA

Crowdy, D., & Cloke, M. (2003). Analytical solutions for distributed multipolar vortex equilibria on a sphere. Physics of Fluids, 15(1), 22–34. https://doi.org/10.1063/1.1521727

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