by U-M MICDE | Oct 10, 2024
Quantum many-body theory and algorithms for strongly correlated systems.
by U-M MICDE | Oct 10, 2024
I am interested in interdisciplinary research at the intersection of condensed matter physics and photonics, leveraging advanced AI techniques to investigate these systems. My work focuses on the inverse design of topological photonic structures, where I develop...
by U-M MICDE | Oct 10, 2024
My research is is on numerical simulation of the atmosphere and Earth system. I am working on a project to permit and evaluate kilometer-scale climate modeling with the Community Earth System Model (CESM). Kilometer-scale resolution will allow for storm systems in the...
by U-M MICDE | Oct 3, 2024
I am working on theoretical cosmology, focusing specifically on dark energy and modified gravity. My current research involves developing the Effective Field Theory of dark energy and studying the Hubble constant measurements by integrating data from gravitational...
by U-M MICDE | Apr 3, 2024
My main research interests include: Hamiltonian and Lagrangian mechanics, gradient flows and nonlinear and optimal control both in the smooth and discrete settings. I am interested in applications of gradient flows to image registration and the application of optimal...
by U-M MICDE | Mar 5, 2024
Dr. Lindsey develops new artificial intelligence-driven simulation methods to accelerate the design, discovery, and synthesis of next-generation materials. She leads the development of ChIMES, a physics-informed machine-learned interatomic model and generation...
by U-M MICDE | Oct 3, 2023
I work on planet formation theory, with a current focus on giant planet formation in a core accretion paradigm. My current work looks at distinctions in the formation of gas giant planets as a result of conditions in their local environment, and how these differences...
by U-M MICDE | Oct 2, 2023
My research focuses on Scientific Machine Learning and Uncertainty Quantification for complex systems in science, engineering, and biology. Primary focuses include Inverse Reinforcement Learning, Bayesian Inference and their applications cancer cell behavior study in...
by U-M MICDE | Sep 30, 2023
Quantum many-body theory and algorithms for strongly correlated systems.
by U-M MICDE | Sep 27, 2023
Weaving enables us to create complex geometries with unique properties. Basketweaving, for example, can achieve stiff three-dimensional shapes by combining flexible fibers. I am developing computational models that can simulate woven geometries to understand how...
