Surface wave tomography for azimuthal anisotropy in a strongly reduced parameter space |
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| Authors: | Mark P Panning Guust Nolet |
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| Institution: | Department of Geosciences, Princeton University, Princeton, NJ 08544,;USA. E-mail: Geosciences Azur, Universitéde Nice/Sophia Antipolis, Observatoire de la Côte d'Azur, UniversitéPierre et Marie Curie, IRD, CNRS, France |
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| Abstract: | Large scale seismic anisotropy in the Earth's mantle is likely dynamically supported by the mantle's deformation; therefore, tomographic imaging of 3-D anisotropic mantle seismic velocity structure is an important tool to understand the dynamics of the mantle. While many previous studies have focused on special cases of symmetry of the elastic properties, it would be desirable for evaluation of dynamic models to allow more general axis orientation. In this study, we derive 3-D finite-frequency surface wave sensitivity kernels based on the Born approximation using a general expression for a hexagonal medium with an arbitrarily oriented symmetry axis. This results in kernels for two isotropic elastic coefficients, three coefficients that define the strength of anisotropy, and two angles that define the symmetry axis. The particular parametrization is chosen to allow for a physically meaningful method for reducing the number of parameters considered in an inversion, while allowing for straightforward integration with existing approaches for modelling body wave splitting intensity measurements. Example kernels calculated with this method reveal physical interpretations of how surface waveforms are affected by 3-D velocity perturbations, while also demonstrating the non-linearity of the problem as a function of symmetry axis orientation. The expressions are numerically validated using the spectral element method. While challenges remain in determining the best inversion scheme to appropriately handle the non-linearity, the approach derived here has great promise in allowing large scale models with resolution of both the strength and orientation of anisotropy. |
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| Keywords: | Inverse theory Surface waves and free oscillations Seismic anisotropy Seismic tomography Theoretical seismology Wave scattering and diffraction |
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