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Tilted Orthorhombic Anisotropy

Tectonic movement of the crust may rotate the rocks and tilt the plane containing the vertical cracks, causing a tilted anisotropy. In the case of tilted orthorhombic media, $k_x$, $k_y$, and $k_z$ need to be replaced by $\hat{k}_x$, $\hat{k}_y$, and $\hat{k}_z$, which are spatial wavenumbers evaluated in a rotated coordinate system aligned with the vectors normal to the orthorhombic symmetry planes:


\begin{displaymath}
\begin{array}{*{20}c}
\hat{k}_x=k_x\cos{\phi}+k_y\sin{\phi}\...
...a}-k_y\cos{\phi}\sin{\theta}+k_z\cos{\theta}\;,\\
\end{array}\end{displaymath} (14)

where $\theta$ is the dip angle measured with respect to vertical and $\phi$ is the azimuth angle, which is the angle between the original X-coordinate and the rotated one. The original vertical axis has the direction of $\left\{\sin\theta\sin\phi,-\sin\theta\cos\phi,\cos\theta\right\}$. For a more general rotation, one needs three angles to describe the transformation (Zhang and Zhang, 2011).




2013-06-25