Litcius/Paper detail

Stalling and Dissipation of a Near‐Inertial Wave (NIW) in an Anticyclonic Ocean Eddy: Direct Determination of Group Velocity and Comparison With Theory

Thomas B. Sanford, B. Barry, Matthew H. Alford

2021Journal of Geophysical Research Oceans15 citationsDOIOpen Access PDF

Abstract

Abstract A near‐inertial wave stalling and breaking in a critical layer was observed for a week by a pair of autonomous velocity and density profilers on concentric paths in an ocean mesoscale eddy. Profiler observations provide estimates of the eddy's vertical vorticity and shear, quantities needed to test theories of downward near‐inertial wave (NIW) energy flux and loss from inertial wave–eddy interactions. The unique observations of the wave's intrinsic frequency and vertical wavenumber m provide a novel estimate of the vertical group velocity C gz from changes in with respect to m . Shear, strain, energy flux convergence, and parameterized turbulence are all elevated near 140 m depth, near the bottom of the strongest eddy velocities. Our observations are consistent with a downgoing NIW's group velocity decreasing owing to wave–eddy interactions, providing important clues on global energetics of NIW mixing.

Topics & Concepts

Inertial waveDissipationMechanicsEddy diffusionEnergy fluxMesoscale meteorologyVorticityTurbulenceGroup velocityGeologyPhysicsWavenumberGeophysicsMeteorologyWave propagationVortexOpticsMechanical waveThermodynamicsLongitudinal waveAstronomyOceanographic and Atmospheric ProcessesOcean Waves and Remote SensingTropical and Extratropical Cyclones Research