A. C. Cass scite author profile

The inviscid damping of an asymmetric perturbation on a two-dimensional circular vortex is examined theoretically, and with an electron plasma experiment. In the experiment, an elliptical perturbation is created by an external impulse. After the impulse, the ellipticity ͑quadrupole moment͒ of the vortex exhibits an early stage of exponential decay. The measured decay rate is in good agreement with theory, in which the perturbation is governed by the linearized Euler equations. Often, the exponential decay of ellipticity is slow compared to a vortex rotation period, due to the excitation of a quasimode. A quasimode is a vorticity perturbation that behaves like a single azimuthally propagating wave, which is weakly damped by a resonant interaction with corotating fluid. Analytically, the quasimode appears as a wave packet of undamped continuum modes, with a sharply peaked frequency spectrum, and it decays through interference as the modes disperse. When the exponential decay rate of ellipticity is comparable to the vortex rotation frequency, the vorticity perturbation does not resemble a quasimode; rather, it is rapidly dominated by spiral filaments. Over longer times, linear theory predicts algebraic decay of ellipticity; however, nonlinear oscillations of ellipticity emerge in the experiment before a transition to algebraic decay would occur.

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Relaxation of 2D Turbulence to Vortex Crystals

Fine

et al. 1995

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Relaxation of 2D turbulence of vortex crystals

Driscoll

Schecter

Jin

et al. 1999

Physica A: Statistical Mechanics and its Applications

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Inviscid damping of elliptical perturbations on a 2D vortex

Schecter¹,

Dubin²,

Cass³

et al. 1999

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A. C. Cass

Inviscid damping of asymmetries on a two-dimensional vortex

Relaxation of 2D Turbulence to Vortex Crystals

Relaxation of 2D turbulence of vortex crystals

Inviscid damping of elliptical perturbations on a 2D vortex

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