Stanford University
Showing 31-40 of 122 Results
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Kai Schoettler
Research Assistant, Contingent
Staff, Earth & Planetary SciencesBioGraduate from the University of Oregon in 2024 with a focus in paleontology, currently working in the Jonathan Payne paleobiology lab. Pursuing a career in research and conservation paleoecology to apply lessons from the past to protect the future. Number 1 fan of extinct deer-like organisms from 15 million years ago.
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Bria Sabine Schraeder
Product Manager, Precourt Institute for Energy
BioBria Schraeder is a Product Manager for the Understand Energy program at the Precourt Institute for Energy. In this role, she supports the development and management of educational content across various platforms, including the Understand Energy class, workshop series, Learning Hub, staff seminar, and newsletter. She also works on marketing and outreach efforts to expand the program's reach and impact.
In her free time, Bria enjoys recipe testing, watercolor painting, and long hikes and cycling. -
Dustin Schroeder
Associate Professor of Geophysics, of Electrical Engineering and Senior Fellow at the Woods Institute for the Environment
BioDustin Schroeder is a Professor of Geophysics and of Electrical Engineering at Stanford University, where he is also affiliated with Stanford’s Woods Institute for the Environment, Kavli Institute for Particle Astrophysics and Cosmology, and Institute for Human-Centered AI. His research primarily focuses on observing and understanding the role of continental ice sheets and their contribution to the rate of sea level rise. A growing secondary focus of his work is the subsurface exploration of icy worlds. He also works on the development, use, and analysis of geophysical radar systems optimized to observe hypothesis-specific phenomena. His research group aspires to approach problems from both an earth system science and radar system engineering perspective.
He serves on the Science Team for the REASON radar instrument on NASA’s Europa Clipper mission and previously co-chaired the mission’s Interior Working Group. At Stanford, he serves as Associate Chair of Geophysics, Associate Chair for Undergraduate Education in Electrical Engineering, and Faculty Director for COLLEGE 102: Citizenship in the 21st Century, part of Stanford’s Civic, Liberal, and Global Education (COLLEGE) first-year core curriculum. He also serves as Chair of the Stanford Faculty Senate. Beyond the university, he serves as Vice President of the International Glaciological Society and has served for more than two decades with the National Science Olympiad, where he chairs the national Earth and Space Sciences committee.
He is a Fellow of the American Geophysical Union, a Senior Member of IEEE, and recipient of the AGU James B. Macelwane Medal and the National Science Foundation CAREER Award. His contributions to education have been recognized through teaching awards in Stanford’s School of Engineering and Doerr School of Sustainability, his selection as a Bass University Fellow in Undergraduate Education, and national recognition for leadership in undergraduate and K–12 science education.
Prior to joining Stanford, he was a Radar Systems Engineer at NASA’s Jet Propulsion Laboratory at the California Institute of Technology. He received his PhD in Geophysics from the University of Texas at Austin and holds a BS in Electrical Engineering and a BA in Physics from Bucknell University. Between his undergraduate and graduate studies, he worked as a Platform Hardware Engineer at Freescale Semiconductor. -
Brady Seals
Director, Electrification for Health, Human and Planetary Health
Current Role at StanfordDirector, Electrification for Health
Center for Human and Planetary Health
Woods Institute for the Environment
Doerr School of Sustainability -
Krish Seetah
Associate Professor of Environmental Social Sciences, of Oceans, of Anthropology and Senior Fellow at the Woods Institute for the Environment
BioI am a zooarchaeologist, whose focus is primarily on colonisation and colonialism. My zooarchaeological research has used butchery analysis (with the benefit of professional and ethnographic actualistic experience) to investigate agency within the human-animal relationship. More recently, I have employed geometric morphometrics (GMM) as a mechanism for identifying and distinguishing animal populations. This approach to studying colonial activity centres on understanding how people manipulate animal bodies, both during life and after death.
Alongside the strictly faunal research is a research interest in technologies associated with animal processing. This has been used to investigate issues of technology, trade and socio-economic attitudes within colonial contexts in the Mediterranean (Venice & Montenegro) and the Baltic (Poland, Latvia & Lithuania).
I am also the Director of the ‘Mauritian Archaeology and Cultural Heritage’ (MACH) project, which studies European Imperialism and colonial activity. This project centres on the movement of peoples and material cultures, specifically within the contexts of slavery and Diaspora. The work of this project has focused on key sites in Mauritius and is based on a systematic programme of excavation and environmental sampling. The underlying aims are to better understand the transition from slavery to indentured labour following abolition, the extent and diversity of trade in the region and the environmental consequences of intense, monoculture, agriculture. -
Paul Segall
The Cecil H. and Ida M. Green Professor of Geophysics
Current Research and Scholarly InterestsResearch
I study active earthquake and volcanic process through data collection, inversion, and theoretical modeling. Using methods such as precise Global Positioning System (GPS) positioning and Interferometric Synthetic Aperture Radar (InSAR) we are able to measure deformation in space and time and invert these data for the geometry of faults and magma chambers, and spatiotemporal variations in fault slip-rate and magma chamber dilation. The accumulation of shear strain in tectonic regions provides a direct measure of earthquake potential. Similarly, magma accumulation in the crust prior to eruptions causes measurable inflation. We use these data to develop and test models of active plate boundaries such as the San Andreas, and the Cascade and Japanese subduction zones, the nucleation of earthquakes, slow slip events, induced seismicity, and the physics of magma migration leading to volcanic eruptions. These physics-based models rely on principles and methodologies from solid and fluid dynamics.
Teaching
I teach introductory undergraduate classes in natural hazards and the prediction of volcanic eruptions, as well as graduate level courses on modeling earthquake and volcano deformation and geophysical inverse theory.
Professional Activities
James B. Macelwane Medal, American Geophysical Union (1990); fellow, American Geophysical Union (1990); fellow, Geological Society of America (1997); president, Tectonophysics Section, AGU (2002-04); U.S.G.S. Science of Earthquakes Advisory Committee (2002-06); California Earthquake Prediction Evaluation Committee (2003-07); chair, Plate Boundary Observatory Steering Committee (2003-06); N.S.F. Panel, Instruments and Facilities Program (1997-2000); associate editor, Journal of Geophysical Research (1984-87). William Smith Lecturer, Geological Society of London (2011). Charles A. Whitten Medal, American Geophysical Union (2014), National Academy of Sciences (2016)
