Helical kelvin waves for the 3D Euler equation
Analysis of PDEs
2024-11-05 v1
Abstract
Helical Kelvin waves were conjectured to exist for the 3D Euler equations in Lucas and Dritschel \cite{LucDri} (as well as in \cite{Chu}) by studying dispersion relation for infinitesimal linear perturbations of a circular helically symmetric vortex patch. This paper aims to rigorously establish the existence of these -fold symmetric helical Kelvin waves, in both simply and doubly connected cases, for the 3D Euler equations. The construction is based on linearization of contour dynamics equations and bifurcation theory. Our results rigorously verify the prediction in aforementioned papers and extend -waves of Kelvin from the 2D Euler equations to the 3D helically symmetric Euler equations.
Cite
@article{arxiv.2411.02055,
title = {Helical kelvin waves for the 3D Euler equation},
author = {Daomin Cao and Boquan Fan and Rui Li and Guolin Qin},
journal= {arXiv preprint arXiv:2411.02055},
year = {2024}
}