School of Humanities and Sciences
Showing 1-20 of 41 Results
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Christina Langer
Postdoctoral Scholar, Economics
BioChristina Langer is a Postdoc at the Stanford Digital Economy Lab, part of the Stanford Institute for Human-Centered AI. Her research interests cover the fields of empirical labor economics and economics of education with a focus on the future of work.
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Paul Lendway
Postdoctoral Scholar, Political Science
BioThe norms and rules that comprise American democracy are eroding. Why? What are the consequences of this trend? And what can be done to address this issue? My research program aims to address these questions. One stream of my research investigates how various forms of political communication (i.e., sermon rhetoric, populist appeals, etc.) shape political preferences. Another strand of my research probes the role of information (i.e., information about social movements or inequality) in structuring public opinion and policy preferences. A final line of my research explores solutions to mass polarization. This includes a project that tests Americans' willingness to compromise on a series of multi-dimensional policy tradeoffs (i.e., a conservative immigration policy and a liberal abortion policy, etc.).
My research is published or conditionally accepted at American Politics Research, Environmental Politics, Political Behavior, and the Journal of Conflict Resolution. My co-authored paper that meta-analyzes the literature on populist appeals and vote choice has a R&R at the American Journal of Political Science. Additionally, my research on sermon rhetoric and White evangelical support for the Republican Party has an R&R at Political Behavior. I have presented my research at a wide range of organizations, including the American Political Science Association, Harvard University, Princeton University, and Yale University. Funding for my research has been provided by the University of Pennsylvania, Yale University, and other organizations. -
Qitong Li
Postdoctoral Scholar, Applied Physics
BioI am an experimental and applied physicist, focusing on extreme light-matter interaction at the nanoscale. I am currently working with Prof. Tony F. Heinz as a postdoctoral researcher in the Department of Applied Physics at Stanford University. Before my current position, I obtained my Ph.D. in Materials Science and Engineering from Stanford University in 2022 under the guidance of Prof. Mark L. Brongersma and my B.Sc. in Physics from Peking University in 2016.
My research concentrates on developing platforms with state-of-the-art tailored (optically resonant) nanostructures to achieve improved control over the photon-electron interaction at the nanoscale. This immediately allows us to create novel photonic and optoelectronic device concepts by coupling free-space lights into a series of well-engineered quantized optical modes and co-engineering electronic and optical components together. We therefore foresee a system-level revolution in industry enabled by nanotechnology. On the other hand, by providing a non-trivial and tunable optical, electrical, and mechanical nano-environment, this platform also fundamentally functions as a versatile tool and offers a new degree of freedom to better probe, study, and control various quantum properties and excitations in solids, especially those enhanced ones in low-dimensional materials. This will ultimately lead us to have a clearer understanding of unconventional phenomena in quantum materials and start to utilize them in a more controllable way. -
Warren Li
Postdoctoral Scholar, Mathematics
BioHello! I am a Stanford Science Fellow working in the Mathematics department. I am interested in the theory of nonlinear wave equations of mathematical physics, including the Einstein equations of General Relativity, the equations of gas mechanics, and related models. In particular, my research concerns a detailed understanding of "singularity formation" for such models, where energy is concentrated and interacts in such a way that the models, in some sense, break down. My focus is on understanding exactly how such a breakdown occurs and the physical implications.
