Experimental evidence of inertial waves in a precessing spheroidal cavity

Experimental evidence of inertial waves in a precessing spheroidal cavity

We have demonstrated experimentally the existence of inertial waves in a slowly precessing spheroid of fluid. Although such oscillatory internal shear layers have been predicted theoretically and numerically, previous precession experiments had shown no evidence of their presence. Using an ultrasoni...

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Bibliographic Details
Published in:Geophysical research letters Vol. 28; no. 19; pp. 3785 - 3788
Main Authors: Noir, Jérôme, Brito, Daniel, Aldridge, Keith, Cardin, Philippe
Format: Journal Article
Language:English
Published: Washington, DC Blackwell Publishing Ltd 01-10-2001
American Geophysical Union
Subjects:
Earth sciences
Earth, ocean, space
Exact sciences and technology
Internal geophysics
Solid-earth geophysics, tectonophysics, gravimetry
experimental studies
outer core
propagation
shear
numerical models
ultrasonic methods
underground cavities
precession
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Summary:We have demonstrated experimentally the existence of inertial waves in a slowly precessing spheroid of fluid. Although such oscillatory internal shear layers have been predicted theoretically and numerically, previous precession experiments had shown no evidence of their presence. Using an ultrasonic Doppler velocimetry technique, profiles of radial velocity have been measured in our precession experiment. Comparison of these profiles with their synthetic counterparts obtained numerically, proves the presence of the predicted internal shear layers. They are emitted from the breakdown of the Ekman layer at the two critical latitudes of the fluid (around 30° and −30°) and propagate through the entire volume on conical surfaces. The asymptotic laws for these oscillatory layers, confirmed experimentally and numerically, lead us to predict an oscillatory flow of 10−6 m/s along such characteristic cones in the Earth's fluid outer core.
Bibliography:ark:/67375/WNG-NKRFLF21-7
istex:02A56A3071DED2FEA63CA9E73BF93D18AE516D7C
ArticleID:2001GL012956
ISSN:0094-8276
1944-8007
DOI:10.1029/2001GL012956