Triadic resonant instability in confined and unconfined axisymmetric geometries

Author(s)

Boury, S.; Maurer, P.; Joubaud, S.; Peacock, T.; Odier, P.

Abstract

We present an investigation of the resonance conditions governing triad interactions of cylindrical internal waves, i.e. Kelvin modes, described by Bessel functions. Our analytical study, supported by experimental measurements, is performed both in confined and unconfined axisymmetric domains. We are interested in two conceptual questions: can we find resonance conditions for a triad of Kelvin modes? What is the impact of the boundary conditions on such resonances? In both the confined and unconfined cases, we show that sub-harmonics can be spontaneously generated from a primary wave field if they satisfy at least a resonance condition on their frequencies of the form ω0 = ±ω1 ± ω2. We demonstrate that the resulting triad is also spatially resonant, but that the resonance in the radial direction may not be exact in confined geometries due to the prevalence of boundary conditions – a key difference compared with Cartesian plane waves.

Date issued

2023-02-21

URI

https://hdl.handle.net/1721.1/155285

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Journal of Fluid Mechanics

Publisher

Cambridge University Press

Citation

Boury S, Maurer P, Joubaud S, Peacock T, Odier P. Triadic resonant instability in confined and unconfined axisymmetric geometries. Journal of Fluid Mechanics. 2023;957:A20.

Version: Author's final manuscript

ISSN

0022-1120

1469-7645