## Modeling shear wave structure of the subducting Kurile slab using both travel time and amplitude residuals |

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### Contents

MODELING S WAVE AMPLITUDE PATTERNS FOR EVENTS IN THE KURILE | 84 |

SHEAR WAVE AMPLITUDE PATTERNS FOR SOURCES IN THEORETICAL | 149 |

REFERENCES | 168 |

### Common terms and phrases

400 km depth 670 km discontinuity amplitude patterns amplitude residual spheres azimuth calculated Cerveny column Creager and Jordan D. L. Anderson deep events deep focus earthquakes deep mantle differential residual spheres Ding and Grand down-dip dynamic ray tracing Dziewonski Earth Planet Engdahl equilibrium finite difference Gaherty Gaussian beam Gaussian beam method Geophys grid heterogeneity Hilst kinetic Kurile slab lithosphere long-period low velocity lower mantle mantle convection metastable olivine northwest Pacific observed Pankow and Lay penetration depth perovskite phase transitions predicted radiation pattern ray maps region relative relocated seismograms shear velocity shear wave slab dip slab geometry slab models slab penetration slab velocity anomaly spinel station statics station/path studies subducting slab subduction zone tabular model tabular slab take-off angle teleseismic temperature thermal conductivity thermal model three-dimensional tomographic travel time anomalies travel time residuals variations velocity gradients velocity model velocity structure Vidale wave amplitude wave arrival waveform Zhou