Reflection and transmission coefficients of a fracture in transversely isotropic media

We obtain the reflection and transmission coefficients at a fracture in transversely isotropic media, whose symmetry axis is perpendicular to the fracture surface. We consider dissimilar upper and lower media. The fracture is modeled as an interface with boundary discontinuities in the displacement...

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Bibliographic Details
Published in:Studia Geophysica et Geodaetica
Main Authors: Carcione, José M, Picotti, Stefano
Format: Article in Journal/Newspaper
Language:unknown
Subjects:
geofyzika
geophysics
fracture
anisotropy
reflection coefficient
boundary condition
attenuation
7
550
Antarctic
The Antarctic
Antarc*
Ice cap
Online Access:https://kramerius.lib.cas.cz/view/uuid:5ed544bc-ebdb-4f3c-b183-4a36c5293181
https://doi.org/10.1007/s11200-011-9034-4
Description
Summary:We obtain the reflection and transmission coefficients at a fracture in transversely isotropic media, whose symmetry axis is perpendicular to the fracture surface. We consider dissimilar upper and lower media. The fracture is modeled as an interface with boundary discontinuities in the displacement and the particle velocity. The stress components are proportional to the displacement and velocity discontinuities through the specific stiffnesses and specific viscosities, respectively. The stiffness introduces frequency-dependence and phase changes in the fracture response and the viscosity is related to the energy loss. We also calculate the energy balance at the fracture and the dissipated energy. The theory is illustrated by computing the reflection coefficient of a fracture present in the Antarctic ice cap. In this case, the reflection coefficient decreases with increasing incidence angle and then approaches 1 at grazing angle. José M. Carcione, Stefano Picotti. Obsahuje seznam literatury

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