by U-M MICDE | Nov 15, 2022
His research group develops fast and scalable algorithms for solving differential and integral equations on complex moving geometries. Application areas of current interest include large-scale simulations of blood flow through arbitrary confined geometries,...
by U-M MICDE | Nov 15, 2022
High power laser plasma interactions are interesting for applications such as the generation of energetic, directional electron, photon, ion and neutron beams or inertial fusion energy. Because of the strong electric and magnetic fields that lead to extremely far from...
by U-M MICDE | Nov 15, 2022
His research focuses on understanding the role of strong correction effects in many-body quantum systems. The objective is to discover novel quantum states/materials and to understand their exotic properties using theoretical/numerical methods (with emphasis on...
by U-M MICDE | Nov 15, 2022
His major current project is the creation an new third-order accurate CFD method called the Active Flux method, with many original features, sponsored by NASA under the Revolutionary Computational Aerodynamics program. Linked with this is joint work with Chris...
by U-M MICDE | Nov 15, 2022
Prof. Powell’s work focuses on algorithm development for fluid dynamics, aerodynamics and plasmadynamics, and the application of computational methods to problems in aerodynamics, aeroelasticicty, fluid dynamics and space environment/space weather.
by U-M MICDE | Nov 15, 2022
Eric Michielssen is the Louise Ganiard Johnson Professor of Electrical Engineering and Computer Science – Electrical and Computer Engineering Division. His research interests include all aspects of theoretical, applied, and computational electromagnetics, with...
by U-M MICDE | Nov 15, 2022
Martins’ research is on algorithms for multidisciplinary design optimization (MDO) that can take advantage of high-fidelity simulations and high-performance parallel computing. He has been focusing on applying these algorithms to the design optimization of new...
by U-M MICDE | Nov 15, 2022
Martin’s research involves development of advanced methods for high fidelity analysis of nuclear reactors, with both Monte Carlo methods and deterministic methods. The methods utilize a high-dimensional phase space (7 independent variables) with large data...
by U-M MICDE | Nov 15, 2022
Dr. Maki works in the field of fluid mechanics, and his central focus is on developing algorithms for numerical computation of high-Reynolds number external flows that contain an air-water interface. Research interests include investigating free-surface hydrodynamics...
by U-M MICDE | Nov 15, 2022
His research interests are the development of analytic and computational methods for nuclear reactor, neutron transport, nonlinear radiative transfer, electron transport and medical physics problems. (Essentially, anything concerning radiation interactions with...
