Sound Speed and Attenuation in Multiphase Media
Abstract
One research goal developed from conducted shallow water (SW) acoustic transmission experiments in sandy-silty areas revealed a nonlinear power law frequency-dependent attenuation at lower frequencies consistent with results reviewed in [2,3] the observations by the ONR-HEP program. The Biot Theory [4] predicts that sandy sediment attenuation should have a quadratic dependence, however the nonlinear dependence observed was closer to a 1.8 power law most likely due to modal effects. Thus one long-range goal is to develop a simplified theory of sediment attenuation verified by laboratory measurements that can be applied to ocean sediments. A second long-range goal is to better understand that acoustical behavior of individual bubbles and bubbly assemblages in water and water-filled sediments. The focus is on attenuation, dispersion, and bubble response near and about the resonance frequency.
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 30, 2005
- Accession Number
- ADA573906
Entities
People
- Ronald A. Roy
- William M. Carey
Organizations
- Boston University