English

Almost extreme waves

Fluid Dynamics 2023-01-25 v1

Abstract

Numerically computed with high accuracy are periodic traveling waves at the free surface of a two dimensional, infinitely deep, and constant vorticity flow of an incompressible inviscid fluid, under gravity, without the effects of surface tension. Of particular interest is the angle the fluid surface of an almost extreme wave makes with the horizontal. Numerically found are: (i) a boundary layer where the angle rises sharply from 00^\circ at the crest to a local maximum, which converges to 30.378730.3787\dots^\circ as the amplitude increases toward that of the extreme wave, independently of the vorticity, (ii) an outer region where the angle descends to 00^\circ at the trough for negative vorticity, while it rises to a maximum, greater than 3030^\circ, and then falls sharply to 00^\circ at the trough for large positive vorticity, and (iii) a transition region where the angle oscillates about 3030^\circ, resembling the Gibbs phenomenon. Numerical evidence suggests that the amplitude and frequency of the oscillations become independent of the vorticity as the wave profile approaches the extreme form.

Keywords

Cite

@article{arxiv.2211.02875,
  title  = {Almost extreme waves},
  author = {Sergey A. Dyachenko and Vera Mikyoung Hur and Denis A. Silantyev},
  journal= {arXiv preprint arXiv:2211.02875},
  year   = {2023}
}
R2 v1 2026-06-28T05:14:46.390Z