Influence of Scattering on Seismic Waves: Physical Mechanisms Contributing to Attenuation in the Crust
Abstract
The mechanisms contributing to the attenuation of earthquake ground motion in the distance range of 10 to 200 km are studied with the aid of laboratory data, coda waves and strong motion attenuation measurements in the northeastern United States and Canada and theoretical models. The relative contributions to attenuation of anelasticity of crustal rocks (constant Q), fluid flow and scattering are evaluated. Scattering is found to be strong with albedo of Bo - 0.9 and scattering extinction length of about 17 km. The intrinsic attenuation in the crust can be explained by a high constant Q (500 < or = sub 0 2000) and a frequency dependent mechanism most likely due to fluid effects in rocks and cracks. A fluid-flow attenuation model gives a frequency dependence (Q approx Q sub 0 f to the 5th power) similar to those determined from the analysis of coda waves of regional seismograms.
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 30, 1987
- Accession Number
- ADA191699
Entities
People
- Denis P. Schmitt
- M. N. Toksoez
- Ru-shan Wu
Organizations
- Massachusetts Institute of Technology