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Pré-Publication, Document De Travail Année : 2005

The Wavelet Response as a Multiscale Characterization of Scattering Processes at Granular Interfaces

Yves Le Gonidec
Dominique Gibert

Résumé

We perform a multiscale analysis of the backscattering properties of a complex interface between water and a layer of randomly arranged glass beads with diameter $D = 1 mm$. An acoustical experiment is done to record the wavelet response of the interface in a large frequency range from $\lambda/D=0.3$ to $\lambda/D=15$. The wavelet response is a physical analog of the mathematical wavelet transform which possesses nice properties to detect and characterize abrupt changes in signals. The experimental wavelet response allows to identify five frequency domains corresponding to different backscattering properties of the complex interface. This puts quantitative limits to the validity domains of the models used to represent the interface and which are flat elastic, flat visco-elastic, rough random half-space with multiple scattering, and rough elastic from long to short wavelengths respectively. A physical explanation based on Mie scattering theory is proposed to explain the origin of the five frequency domains identified in the wavelet response.
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Dates et versions

hal-00008567 , version 1 (13-09-2005)

Identifiants

  • HAL Id : hal-00008567 , version 1

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Yves Le Gonidec, Dominique Gibert. The Wavelet Response as a Multiscale Characterization of Scattering Processes at Granular Interfaces. 2005. ⟨hal-00008567⟩
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