Litcius/Paper detail

Succession of Resonances to Achieve Internal Wave Turbulence

Géraldine Davis, Timothée Jamin, Julie Deleuze, Sylvain Joubaud, Thierry Dauxois

2020Physical Review Letters33 citationsDOIOpen Access PDF

Abstract

We study experimentally the interaction of nonlinear internal waves in a stratified fluid confined in a trapezoidal tank. The setup has been designed to produce internal wave turbulence from monochromatic and polychromatic forcing through three processes. The first is a linear transfer in wavelength obtained by wave reflection on inclined slopes, leading to an internal wave attractor which has a broad wave number spectrum. Second is the broadbanded time-frequency spectrum of the trapezoidal geometry, as shown by the impulse response of the system. The third one is a nonlinear transfer in frequencies and wave vectors via triadic interactions, which results at large forcing amplitudes in a power law decay of the wave number power spectrum. This first experimental spectrum of internal wave turbulence displays a k^{-3} behavior.

Topics & Concepts

PhysicsWavenumberInternal waveTurbulenceAmplitudeWavelengthMonochromatic colorNonlinear systemAttractorSpectral densityOpticsMechanicsClassical mechanicsComputational physicsMathematical analysisMathematicsQuantum mechanicsStatisticsOceanographic and Atmospheric ProcessesOcean Waves and Remote SensingNonlinear Dynamics and Pattern Formation