Relative Equilibrium and Collapse Configurations of Four Point Vortices

    2007, Volume 12, Number 2, pp.  117-126

    Author(s): O'Neil K. A.

    Relative equilibrium configurations of point vortices in the plane can be related to a system of polynomial equations in the vortex positions and circulations. For systems of four vortices the solution set to this system is proved to be finite, so long as a number of polynomial expressions in the vortex circulations are nonzero, and the number of relative equilibrium configurations is thereby shown to have an upper bound of 56. A sharper upper bound is found for the special case of vanishing total circulation. The polynomial system is simple enough to allow the complete set of relative equilibrium configurations to be found numerically when the circulations are chosen appropriately. Collapse configurations of four vortices are also considered; while finiteness is not proved, the approach provides an effective computational method that yields all configurations with a given ratio of velocity to position.
    Keywords: point vortices, relative equilibrium
    Citation: O'Neil K. A., Relative Equilibrium and Collapse Configurations of Four Point Vortices, Regular and Chaotic Dynamics, 2007, Volume 12, Number 2, pp. 117-126

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