Vortices, circumfluence, symmetry groups and Darboux transformations of the (2+1)-dimensional Euler equation

S. Y. Lou; M. Jia; X. Y. Tang; F. Huang

doi:10.1103/PhysRevE.75.056318

Vortices, circumfluence, symmetry groups and Darboux transformations of the (2+1)-dimensional Euler equation

Pattern Formation and Solitons 2008-03-04 v1 Exactly Solvable and Integrable Systems

Authors: S. Y. Lou , M. Jia , X. Y. Tang , F. Huang

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Abstract

The Euler equation (EE) is one of the basic equations in many physical fields such as fluids, plasmas, condensed matter, astrophysics, oceanic and atmospheric dynamics. A symmetry group theorem of the (2+1)-dimensional EE is obtained via a simple direct method which is thus utilized to find \em exact analytical \rm vortex and circumfluence solutions. A weak Darboux transformation theorem of the (2+1)-dimensional EE can be obtained for \em arbitrary spectral parameter \rm from the general symmetry group theorem. \rm Possible applications of the vortex and circumfluence solutions to tropical cyclones, especially Hurricane Katrina 2005, are demonstrated.

Keywords

vortex dynamics relativistic hydrodynamics darboux transformations

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@article{arxiv.0803.0111,
  title  = {Vortices, circumfluence, symmetry groups and Darboux transformations of the (2+1)-dimensional Euler equation},
  author = {S. Y. Lou and M. Jia and X. Y. Tang and F. Huang},
  journal= {arXiv preprint arXiv:0803.0111},
  year   = {2008}
}

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25 pages, 9 figures

Vortices, circumfluence, symmetry groups and Darboux transformations of the (2+1)-dimensional Euler equation

Abstract

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