Dynamic History of Inner Core
Progressive crystallisation of Earth’s inner core drives convection in the outer core and magnetic field generation. Determining the rate and pattern of inne...
Progressive crystallisation of Earth’s inner core drives convection in the outer core and magnetic field generation. Determining the rate and pattern of inne...
Using a regional tomographic model of the Alaskan upper mantle to predict upper mantle effects on PKP travel times, we show that the signature of the Alaska ...
Based on the PKPdf observations and our new tomography model of the upper mantle beneath Alaska, we conclude that at least 2 s of the travel time anomaly oft...
Ultralow-velocity zones are localized regions of extreme material properties detected seismologically at the base of Earth’s mantle. Their nature and role in...
Superplumes from the Core-Mantle Boundary to the Lithosphere: Implications for Heat Flux
Previous studies have documented the presence of ultra-low-velocity-zones (ULVZs) at the base of the mantle, through observations of body wave complexities. ...
We document a high signal to noise phase that agrees with theoretical predictions for PKJKP. Envelope modeling of the PKJKP waveform implies a slightly large...
Excitation of Earth’s continuous free oscillations by atmosphere-ocean-seafloor coupling
We applied global waveform tomography to model radial anisotropy in the whole mantle. We found that in the last few hundred kilometers near the core-mantle b...
Explore seismic wave propagation using normal modes, NACT, and advanced theoretical models for global tomography.
This is a collaborative project between the Berkeley Seismological Laboratory (BSL) and the Monterey Bay Aquarium Research Institute (MBARI)
Tutorial on how to use Git and GitHub for team collaboration on a project. Content includes installing, setting up, creating a repository, making commits, un...