Seismic wave propagation and scattering in the heterogeneous earth
Author(s)
Bibliographic Information
Seismic wave propagation and scattering in the heterogeneous earth
(AIP series in modern acoustics and signal processing)
Springer, c1998
Available at 30 libraries
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Note
Includes bibliographical references (p. [283]-302) and index
"AIP Press"
Description and Table of Contents
Description
Seismic waves -- generated both by natural earthquakes and by man-made sources -- have produced an enormous amount of information about the Earth's interior. In classical seismology, the Earth is modeled as a sequence of uniform horizontal layers (or sperical shells) having different elastic properties and one determines these properties from travel times and dispersion of seismic waves. The Earth, however, is not made of horizontally uniform layers, and classic seismic methods can take large-scale inhomogeneities into account. Smaller-scale irregularities, on the other hand, require other methods. Observations of continuous wave trains that follow classic direct S waves, known as coda waves, have shown that there are heterogeneities of random size scattered randomly throughout the layers of the classic seismic model. This book focuses on recent developments in the area of seismic wave propagation and scattering through the randomly heterogeneous structure of the Earth, with emphasis on the lithosphere.
The presentation combines information from many sources to present a coherent introduction to the theory of scattering in acoustic and elastic materials and includes analyses of observations using the theoretical methods developed. Written for advanced undergraduates or beginning graduate students of geophysics or planetary sciences, this book should also be of interest to civil engineers, seismologists, acoustical engineers, and others interested in wave propagation through inhomogeneoud elastic media.
Table of Contents
Introduction Heterogeneity in the Lithosphere Phenomenological Modeling of Coda Wave Excitation Born Approximation for Wave Scattering in Inhomogeneous Media Attenuation of High-frequency Seismic Waves Synthesis of the Three-component Seismogram Envelopes Envelope Synthesis Based on Radiative Transfer Theory Broiadening of Seismogram Envelopes Summary & Epilog
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