Laboratory measurements of high-frequency broadband acoustic backscattering from the diffusive regime of double-diffusive microstructure have been performed. This type of microstructure, which was characterized using direct microstructure and optical shadowgraph techniques, is identified by sharp density and sound speed interfaces separating well-mixed layers. Vertical acoustic backscattering measurements were performed for a range of physical parameters controlling the double-diffusive microstructure. The echoes have been analyzed in both the frequency domain, providing information on the spectral response of the scattering, and in the time domain, using pulse compression techniques. High levels of variability were observed, associated with interface oscillations and turbulent plumes, with many echoes showing significant spectral structure. Acoustic estimates of interface thickness , obtained for the echoes with exactly two peaks in the compressed pulse output, were in good agreement with estimates based on direct microstructure and optical shadowgraph measurements. Predictions based on a one-dimensional weak-scattering model that includes the actual density and sound speed profiles agree reasonably with the measured scattering. A remote-sensing tool for mapping oceanic microstructure, such as high-frequency broadband acoustic scattering, could lead to a better understanding of the extent and evolution of double-diffusive layering, and to the importance of double diffusion to oceanic mixing.
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September 2007
September 01 2007
Acoustic scattering from double-diffusive microstructure
Andone C. Lavery;
Andone C. Lavery
a)
Department of Applied Ocean Physics and Engineering,
Woods Hole Oceanographic Institution
, Woods Hole, Massachusetts 02543
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Tetjana Ross
Tetjana Ross
Department of Oceanography,
Dalhousie University
, Halifax, Nova Scotia B3H 4J1, Canada
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a)
Electronic mail: alavery@whoi.edu
J. Acoust. Soc. Am. 122, 1449–1462 (2007)
Article history
Received:
January 26 2007
Accepted:
July 02 2007
Citation
Andone C. Lavery, Tetjana Ross; Acoustic scattering from double-diffusive microstructure. J. Acoust. Soc. Am. 1 September 2007; 122 (3): 1449–1462. https://doi.org/10.1121/1.2764475
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