School of Humanities and Sciences
Showing 1,801-1,850 of 6,123 Results
-
Gary Glover
Professor of Radiology (Radiological Sciences Lab) and, by courtesy, of Psychology and of Electrical Engineering
Current Research and Scholarly InterestsMy present research is devoted to the advancement of functional magnetic resonance imaging sciences for applications in basic understanding of the brain in health and disease. We collaborate closely with departmental clinicians and with others in the school of medicine, humanities, and the engineering sciences.
-
Leylanie Go
Program Coordinator, Language Ctr
Current Role at StanfordProgram Coordinator
-
Ellaheh Gohari
Undergraduate, English
Cardinal Careers Student Assistant, Haas Center for Public Service
Undergraduate, Science, Technology and SocietyBioMy name is Ellaheh Gohari, a Science, Technology, and Society major on the Data Science track. I minor in Screenwriting. I work for the Haas Center as a Cardinal Careers Student Assistant and ultimately hope to be a lawyer.
-
David Goldhaber-Gordon
TG Wijaya Professor of Physics and Professor, by courtesy, of Applied Physics
Current Research and Scholarly InterestsHow do electrons organize themselves on the nanoscale?
We know that electrons are charged particles, and hence repel each other; yet in common metals like copper billions of electrons have plenty of room to maneuver and seem to move independently, taking no notice of each other. Professor Goldhaber-Gordon studies how electrons behave when they are instead confined to tiny structures, such as wires only tens of atoms wide. When constrained this way, electrons cannot easily avoid each other, and interactions strongly affect their organization and flow. The Goldhaber-Gordon group uses advanced fabrication techniques to confine electrons to semiconductor nanostructures, to extend our understanding of quantum mechanics to interacting particles, and to provide the basic science that will shape possible designs for future transistors and energy conversion technologies. The Goldhaber-Gordon group makes measurements using cryogenics, precision electrical measurements, and novel scanning probe techniques that allow direct spatial mapping of electron organization and flow. For some of their measurements of exotic quantum states, they cool electrons to a fiftieth of a degree above absolute zero, the world record for electrons in semiconductor nanostructures. -
Judith L. Goldstein
Janet M. Peck Professor of International Communication, Professor of Political Science and Senior Fellow at the Stanford Institute for Economic Policy Research
BioJudith L. Goldstein is the Janet M. Peck Professor of International Communication and the Kaye University Fellow in Undergraduate Education. Her research focuses on international political economy, with a focus on trade politics. She has written and/or edited six book including Ideas, Interests and American Trade Policy and more recently The Evolution of the Trade Regime: Politics, Law and Economics of the GATT and the WTO. Her articles have appeared in numerous journals.
Her current research focuses on the political requisites for trade liberalization focusing both on tariff bargaining and public preferences. As well, she is engaged in the analysis of a large survey panel, which focuses on how economic hard times influences public opinion.
Goldstein has a BA from the University of California Berkeley, a Masters degree from Columbia University and a Ph.D. from UCLA. -
Mario Alberto Gomez Zamora
Lecturer
Current Research and Scholarly InterestsMario A. Gómez Zamora’s first book project explores the cultural tensions that queer Indigenous P’urhépechas face when participating in their communities’ traditions. Through the lens of queer theory, dance studies, and performance studies, Mario analyzes how Indigenous communities reproduce colonial violence against queer individuals in the present, and how queer P’urhépechas work toward new futures through danzas and performances in P’urhépecha fiestas and ceremonies while they claim their indigeneity as part of the collective in Michoacán and among those P’urhépechas who migrated to the Pacific Coast and Midwest of the United States. To trace the stories of marginalized Indigenous people in both their homelands and in sites of migration, Mario combines Indigenous methodologies, such as talking-while-walking through the landscape, with oral histories, semi-structured interviews, participant observations, and archival research. His scholarship reshapes queer studies, migration studies, and performance studies by examining how queer P’urhépechas are embraced by the collective via their participation in danzas as female characters but are still subjects of anti-gay violence and death beyond the performance space. This is a project of hope, life, and resistance to the hegemonic normativity in the P’urhépecha landscape.
-
Benjamin Good
Assistant Professor of Applied Physics and, by courtesy, of Biology
BioBenjamin Good is a theoretical biophysicist with a background in experimental evolution and population genetics. He is interested in the short-term evolutionary dynamics that emerge in rapidly evolving microbial populations like the gut microbiome. Technological advances are revolutionizing our ability to peer into these evolving ecosystems, providing us with an increasingly detailed catalog of their component species, genes, and pathways. Yet a vast gap still remains in understanding the population-level processes that control their emergent structure and function. Our group uses tools from statistical physics, population genetics, and computational biology to understand how microscopic growth processes and genome dynamics at the single cell level give rise to the collective behaviors that can be observed at the population level. Projects range from basic theoretical investigations of non-equilibrium processes in microbial evolution and ecology, to the development of new computational tools for measuring these processes in situ in both natural and experimental microbial communities. Through these specific examples, we seek to uncover unifying theoretical principles that could help us understand, forecast, and eventually control the ecological and evolutionary dynamics that take place in these diverse scenarios.
