The Earth's rocky mantle convects to lose heat, which comes from the liquid iron core below. The mantle's interfaces - the core-mantle boundary, and the lithosphere - may hold the key to understanding mantle motion because of the seismic anisotropy present in these parts of the Earth. In this thesis, Andy Nowacki presents a precise but comprehensive review of the current state of the art in studying flow with anisotropy, mineral physics and geodynamics. New measurements of shear wave anisotropy in the lowermost mantle and at mid-ocean ridges are used to constrain mechanisms of creep and...
The Earth's rocky mantle convects to lose heat, which comes from the liquid iron core below. The mantle's interfaces - the core-mantle boundary, and t...
This book presents a comprehensive review of the current state of the art in studying flow with anisotropy, mineral physics and geodynamics. It describes several novel methods for the modeling and interpretation of shear wave splitting.
This book presents a comprehensive review of the current state of the art in studying flow with anisotropy, mineral physics and geodynamics. It descr...
