The response of a stratified rapidly rotating flow to a pulsating topography
DOI10.1017/S0022112087000995zbMath0616.76120MaRDI QIDQ4726002
No author found.
Publication date: 1987
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
explicit solutioncausticsinternal gravity wavesinertial wavesenergy propagationpulsating frequencyphase jumpfrequency thresholdwavenumber spectraclassical internal-gravity-wave theorycyclonic structureslarge-scale, cyclonic componentoscillating far-fieldoscillating, shalow topographical featurerapidly rotating, linearly stratified, unbounded fluidsinusoidal surface oscillation
General theory of rotating fluids (76U05) Internal waves for incompressible inviscid fluids (76B55) Reaction effects in flows (76V05) Basic methods in fluid mechanics (76M99)
Cites Work
- Topographically generated cyclonic disturbance and lee waves in a stratified rotating fluid
- Inertial waves above an obstacle in an unbounded, rapidly rotating fluid
- The effects of obstacle shape and viscosity in deep rotating flow over finite-height topography
- Separation and the Taylor-column problem for a hemisphere
- Some remarks on the initiation of inertial Taylor columns
- Trapped vortices in rotating flow
- Three-dimensional numerical integrations of the Navier-Stokes equations for flow over surface-mounted obstacles
- On the structure of inertial waves produced by an obstacle in a deep, rotating container
- On the stratified Taylor column
- On waves generated in dispersive systems by travelling forcing effects, with applications to the dynamics of rotating fluids
- Rotating flow over a step
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