English

Confinement effects on gravity-capillary wave turbulence

Fluid Dynamics 2018-09-07 v1

Abstract

The statistical properties of a large number of weakly nonlinear waves can be described in the framework of the Weak Turbulence Theory. The theory is based on the hypothesis of an asymptotically large system. In experiments, the systems have a finite size and the predictions of the theory may not apply because of the presence of discrete modes rather than a continuum of free waves. Our study focusses on the case of waves at the surface of water at scales close to the gravity-capillarity crossover (of order 1~cm). Wave turbulence has peculiar properties in this regime because 1D resonant interactions can occur as shown by Aubourg \& Mordant. Here we investigate the influence of the confinement on the properties of wave turbulence by reducing gradually the size of our wave tank along one of its axis, the size in the other direction being unchanged. We use space-time resolved profilometry to reconstruct the deformed surface of water. We observe an original regime of coexistence of weak wave turbulence along the length of the vessel and discrete turbulence in the confined direction.

Keywords

Cite

@article{arxiv.1809.01850,
  title  = {Confinement effects on gravity-capillary wave turbulence},
  author = {Roumaissa Hassaini and Nicolas Mordant},
  journal= {arXiv preprint arXiv:1809.01850},
  year   = {2018}
}

Comments

accepted for publication in Physical Review Fluids

R2 v1 2026-06-23T03:56:10.448Z