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Exploration Geophysics Exploration Geophysics Society
Journal of the Australian Society of Exploration Geophysicists
RESEARCH ARTICLE

Raypath and traveltime computations for 2D transversely isotropic media with dipping symmetry axes

B. Zhou and S. Greenhalgh

Exploration Geophysics 37(2) 150 - 159
Published: 2006

Abstract

This paper presents a simple method to calculate the traveltimes and corresponding raypaths for the first-arrival (refraction), reflected, diffracted, and converted waves of the three modes (qP, qSV, qSH) in a 2D transversely isotropic medium, whose symmetry axis may have an arbitrary orientation in the xz-plane. This method is a direct extension of the 'shortest path' method to the anisotropic situation. In this extension, we employ analytic solutions for the group velocity of the three wave modes, and transform a 2D heterogeneous, transversely isotropic medium defined by five elastic moduli and the arbitrary orientation angle of the symmetry axis into the three group-velocity models, which correspond to the qP-, qSV- and qSH-waves. The three group velocities are functions of the spatial coordinates and the ray direction, as well as the orientation angle of the symmetry axis of the media. With these group-velocity models, the traveltimes of these waves and their corresponding raypaths are then simultaneously or individually calculated by a modified ?shortest path? method. We present some numerical experiments to show the accuracy, efficiency, and capability of the method. The results demonstrate that a rotated (dipping) symmetry axis may significantly change the kinematic properties of the three wave modes in a transversely isotropic medium.

https://doi.org/10.1071/EG06150

© ASEG 2006

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