Analysis of Rayleigh-Lamb Modes in Soft-solids with Application to Surface Wave Elastography

The goal of Surface Wave Elastography (SE) techniques is to estimate the shear elasticity of the sample by measuring the surface wave speed. In SE the thickness of the sample is often assumed to be infinite, in this way, the surface wave speed is directly linked to the sample's shear elasticity...

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Veröffentlicht in:Physics procedia 2015, Vol.70, p.175-178
Hauptverfasser: Benech, Nicolás, Grinspan, Gustavo, Aguiar, Sofía, Brum, Javier, Negreira, Carlos, tanter, Mickäel, Gennisson, Jean-Luc
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container_title Physics procedia
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Grinspan, Gustavo
Aguiar, Sofía
Brum, Javier
Negreira, Carlos
tanter, Mickäel
Gennisson, Jean-Luc
description The goal of Surface Wave Elastography (SE) techniques is to estimate the shear elasticity of the sample by measuring the surface wave speed. In SE the thickness of the sample is often assumed to be infinite, in this way, the surface wave speed is directly linked to the sample's shear elasticity. However for many applications this assumption is not true. In this work, we study experimentally the Rayleigh-Lamb modes in soft solids of finite thickness to explore the optimal conditions for SWE. Experiments were carried out in three tissue mimicking phantoms of different thicknesses (10mm, 20mm and 60mm) and same shear elasticity. The surface waves were generated at the surface of the phantom using piston attached to a mechanical vibrator. The central frequency of the excitation was varied between 60Hz to 160Hz. One component of the displacement field generated by the piston was measured at the surface and in the bulk of the sample trough a standard speckle tracking technique using a 256 element, 7.5MHz central frequency linear array and an ultrasound ultrafast electronics. Finally, by measuring the phase velocity at each excitation frequency, velocity dispersion curves were obtained for each phantom. The results show that instead of a Rayleigh wave, zero order symmetric (S0) and antisymmetric (A0) Lamb modes are excited with this type of source. Moreover, in this study we show that due to the near field effects of the source, which are appreciable only in soft solids at low frequencies, both Lamb modes are separable in time and space. We show that while the Ao mode dominates close the source, the S0 mode dominates far away.
doi_str_mv 10.1016/j.phpro.2015.08.104
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title Analysis of Rayleigh-Lamb Modes in Soft-solids with Application to Surface Wave Elastography
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