School of Humanities and Sciences
Showing 1-20 of 41 Results
Professor of Particle Physics and Astrophysics and of Physics
BioWhat were the first objects that formed in the Universe? Prof. Abel's group explores the first billion years of cosmic history using ab initio supercomputer calculations. He has shown from first principles that the very first luminous objects are very massive stars and has developed novel numerical algorithms using adaptive-mesh-refinement simulations that capture over 14 orders of magnitude in length and time scales. He currently continues his work on the first stars and first galaxies and their role in chemical enrichment and cosmological reionization. His group studies any of the first objects to form in the universe: first stars, first supernovae, first HII regions, first magnetic fields, first heavy elements, and so on. Most recently he is pioneering novel numerical algorithms to study collisionless fluids such as dark matter which makes up most of the mass in the Universe as well as astrophysical and terrestrial plasmas. He was the director of the Kavli Institute for Particle Astrophysics and Cosmology and Division Director at SLAC 2013-2018.
Professor of Economics and Senior Fellow at the Stanford Institute for Economic Policy Research
BioRan Abramitzky is Associate Professor of Economics at Stanford University. His research is in economic history and applied microeconomics, with focus on immigration and income inequality. He is a research associate at the National Bureau of Economic Research and a senior fellow at the Stanford Institute for Economic Policy Research. He is the vice chair of the economics department, and the co-editor of Explorations in Economic History. He was awarded an Alfred P. Sloan Research Fellowship, as well as National Science Foundation grants for research on the causes and consequences of income inequality and on international migration. He has received the Economics Department’s and the Dean’s Awards for Distinguished Teaching. He holds a PhD in economics from Northwestern University.
Associate Professor of Political Science and, by courtesy, of Political Economy at the Graduate School of Business
BioAvidit Acharya is an assistant professor of political science at Stanford University. His research specializes in the fields of political economy and game theory, especially as it applies to topics in comparative politics and international relations. Before coming to Stanford, Avi taught for two years at the University of Rochester.
James L. Adams
Professor of Industrial Engineering and Engineering Management and of Mechanical Engineering, Emeritus
Current Research and Scholarly InterestsI have for some time been working on two books. The working title for one is Making, Fixing, and Tinkering, and it concerns the benefits of working with the hands. The other has a working title of Homo Demi Sapiens, and is about the balance of creativity and control in very large groups (societies, religions, etc.). I am also revising a book entitled The Building of an Engineer, which I wrote for my aging mother and self-published. It is somewhat autobiographical, and although it is available on Amazon, I do not consider it quite ready for public reading.
Forest Baskett Professor in the School of Engineering and Professor, by courtesy, of Electrical Engineering
Current Research and Scholarly InterestsComputer Graphics, Human Computer Interaction and Visualization.
Professor of French and Italian
Current Research and Scholarly InterestsMy current research focuses on France's contemporary political discourse; specifically the far right (National Front) and Presidential campaigns. I use digital humanities text analysis tools and semiotic/semantic/rhetoric analysis to look at political mythologies, communication strategies and representations of identity.
Past research projects include national sentiment and poetry; obscenity and obstetrics, lyric economies in Renaissance France.
Assistant Professor of Music
Current Research and Scholarly InterestsComputer-assisted analysis, composition
Physical computing and robotics
Multimedia interactive performance, aesthetics and paradigms of multimedia interaction
Feminist perspectives on electronic music practices
Use of technology in inclusive music, interfaces for the disabled
Music Information Retrieval (MIR), concatenative synthesis, and physical modelling
Motion capture, gestural control of electronics, and kinetics in electronics
Music and sound design for film, video and installation art
Mark Algee Hewitt
Assistant Professor of English
BioMark Algee-Hewitt’s research focuses on the eighteenth and early nineteenth centuries in England and Germany and seeks to combine literary criticism with digital and quantitative analyses of literary texts. In particular he is interested in the history of aesthetic theory and the development and transmission of aesthetic and philosophic concepts during the Enlightenment and Romantic periods. He is also interested in the relationship between aesthetic theory and the poetry of the long eighteenth century. He is also the co-associate director of the Stanford Literary Lab.
Professor of Physics and of Particle Physics and Astrophysics
Current Research and Scholarly InterestsObservational astrophysics and cosmology; galaxies, galaxy clusters, dark matter and dark energy; applications of statistical methods; X-ray astronomy; X-ray detector development; optical astronomy; mm-wave astronomy; radio astronomy; gravitational lensing.
Russ B. Altman
Kenneth Fong Professor and Professor of Bioengineering, of Genetics, of Medicine (General Medical Discipline), of Biomedical Data Science and, by courtesy, of Computer Science
Current Research and Scholarly InterestsI refer you to my web page for detailed list of interests, projects and publications. In addition to pressing the link here, you can search "Russ Altman" on http://www.google.com/
David Mulvane Ehrsam and Edward Curtis Franklin Professor in Chemistry, Emeritus
BioProfessor Emeritus Hans C. Andersen applies statistical mechanics to develop theoretical understanding of the structure and dynamics of liquids and new computer simulation methods to aid in these studies.
He was born in 1941 in Brooklyn, New York. He studied chemistry as an undergraduate, then physical chemistry as a doctoral candidate at the Massachusetts Institute of Technology (B.S. 1962, Ph.D. 1966). At MIT he first learned about using a combination of mathematical techniques and the ideas of statistical mechanics to investigate problems of chemical and physical interest. This has been the focus of his research ever since. He joined the Stanford Department of Chemistry as Assistant Professor in 1968, and became Professor of Chemistry in 1980. He was named David Mulvane Ehrsam and Edward Curtis Franklin Professor in Chemistry in 1994. Professor Andersen served as department chairman from 2002 through 2005. Among many honors, his work has been recognized in the Theoretical Chemistry Award and Hildebrand Award in Theoretical and Experimental Chemistry of Liquids from the American Chemical Society, as well as the Dean's Award for Distinguished Teaching and Walter J. Gores Award for Excellence in Teaching at Stanford. He has been elected a member of the National Academy of Sciences, and a fellow of both the American Academy of Arts and Sciences and American Association for the Advancement of Science.
Professor Andersen’s research program has used both traditional statistical mechanical theory and molecular dynamics computer simulation. Early in his career, he was one of the developers of what has come to be known as the Weeks-Chandler-Andersen theory of liquids, which is a way of understanding the structure, thermodynamics, and dynamics of simple dense liquids. Later, he developed several new simulation techniques – now in common use – for exploring the behavior of liquids, such as simulation of a system under constant pressure and/or temperature. He used computer simulations of normal and supercooled liquids to study the temperature dependence of molecular motion in liquids, crystallization in supercooled liquids, and the structure of amorphous solids.
Professor Andersen also developed and analyzed a class of simple lattice models, called facilitated kinetic Ising models, which were then widely used by others to provide insight into the dynamics of real liquids. He simulated simple models of rigid rod polymers to understand the dynamics of this type of material. More recently, in collaboration with Professor Greg Voth of the University of Chicago, he has applied statistical mechanical ideas to the development of coarse grained models of liquids and biomolecules. Such models can be used to simulate molecular systems on long time scales. He has also used mode coupling theory to describe and interpret experiments on rotational relaxation in supercooled liquids and nematogens, in collaboration with Professor Michael Fayer of the Stanford Chemistry Department.