Compact binary mergers
Core-collapse supernova explosions, supernova dust formation, very massive Stars
Compact binary mergers
Core-collapse supernova explosions, supernova dust formation, very massive Stars
Experimental turbulence, computational hydrodynamics, data analysis techniques, convection, and stellar evolution
Compact binary mergers
Compact objects, neutron star mergers, gravitational waves, and general relativity
Nucelosynthesis, neutron stars, and supernovae
Core-collapse supernovae, young supernova remnants, dust formation in SN ejecta
Plasma physics, electric propulsion, gamma-ray bursts, astrophysical outflows, particle-in-cell simulations
Mathematical fluid dynamics, atmospheric and ocean flow, data assimilation and parameter recovery
Experimental turbulence, computational hydrodynamics, data analysis techniques, convection, and stellar evolution
Solar calibration, stellar interior structure & evolution, stellar mass loss, helioseismology
Core-collapse supernovae, nuclear astrophysics, gravitational waves, and stellar hydrodynamics
Compact object mergers, r-process nucleosynthesis, neutrino radiative transport, numerical relativity, numerical methods
Stochastic Modeling, Tubulent Combustion, HPC
Compact binary mergers
Numerical relativity, binary compact object mergers, numerical methods and algorithms, and HPC
Core-collapse supernova explosions, supernova dust formation, very massive Stars
Galaxy evolution, supernovae, and transient light curves
Nucelosynthesis, neutron stars, and supernovae
Primdordial balck holes, progenitors of supermassive black holes, cosmology
Binary mergers, common envelope evolution, supernova progenitors
Experimental turbulence, computational hydrodynamics, data analysis techniques, convection, and stellar evolution
Solar calibration, stellar interior structure & evolution, stellar mass loss, helioseismology
Core-collapse supernovae, nuclear astrophysics, gravitational waves, and stellar hydrodynamics
Astrochemistry, Large-scale structure, and machine learning algorithms
Compact binary mergers
Numerical relativity, binary compact object mergers, numerical methods and algorithms, and HPC
Core-collapse supernovae, cosmology, non-linear systems, radiation transport
Core-collapse supernovae, dust formation and destruction
Galaxy evolution, supernovae, and transient light curves
Gamma-ray bursts and neutron star mergers
Supernova, hydrodynamics, and nucleosynthesis
For more information on any of our activities or to inquire about opportunities to work with our team, please use the contact information below or contact the appropriate team member directly.