2015
DOI: 10.1017/jfm.2015.530
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Wave field and zonal flow of a librating disk

Abstract: In this work, we provide a viscous solution of the wave field generated by librating a disk (harmonic oscillation of the rotation rate) in a stably stratified rotating fluid. The zonal flow (mean flow correction) generated by the nonlinear interaction of the wave field is also calculated in the weakly nonlinear framework. We focus on the low dissipative limit relevant for geophysical applications and for which the wave field and the zonal flow exhibit generic features (Ekman scaling, universal structures, etc.… Show more

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Cited by 11 publications
(13 citation statements)
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“…Adapting the results of Tilgner (2000), Bardakov etal. (2007), Davis & Llewellyn Smith (2010) and Le Dizès (2015) for the oscillations of a horizontal circular disc to the line source , with the Dirac delta function, we obtain or, equivalently, At first glance the two wave structures, shown in figure 3( a , b ), appear incompatible with each other. In particular, the spectrum of the line source leaves the normal wavenumber arbitrary, thereby allowing to become infinitely large and preventing the pole displacements (2.15) and (2.26) from remaining small, however small and can be.…”
Section: Wave Structurementioning
confidence: 71%
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“…Adapting the results of Tilgner (2000), Bardakov etal. (2007), Davis & Llewellyn Smith (2010) and Le Dizès (2015) for the oscillations of a horizontal circular disc to the line source , with the Dirac delta function, we obtain or, equivalently, At first glance the two wave structures, shown in figure 3( a , b ), appear incompatible with each other. In particular, the spectrum of the line source leaves the normal wavenumber arbitrary, thereby allowing to become infinitely large and preventing the pole displacements (2.15) and (2.26) from remaining small, however small and can be.…”
Section: Wave Structurementioning
confidence: 71%
“…The determination of this model for an actual forcing mechanism, typically the oscillations of a plate, requires the calculation of the boundary layer, which then predates the calculation of the waves. In three dimensions the boundary layer has been obtained by Davis & Llewellyn Smith (2010) and Le Dizès (2015) by solving the no-slip boundary-value problem for oscillating horizontal discs.…”
Section: Resultsmentioning
confidence: 99%
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“…The two velocity components v and v φ (aligned along with L j and the azimut, respectively) are found to be identical albeit a phase factor. Around the line L 1 , Le Dizès (2015) Figure 3. Contour of the azimuthal velocity v φ in the (r,z) plane of the librating disk in the plane obtained from the numerical simulation at t = 501.5π/ω for E = 10 −5 , ε = 10 −4 , ω = √ 2.…”
Section: Libration Of a Diskmentioning
confidence: 99%
“…This behaviour also emerges in the analysis of shear layers produced by a librating disc, which reflect on the axis (e.g. Le Dizès 2015).…”
Section: Discussionmentioning
confidence: 80%