Advances in numerical modeling of astrophysical and space plasmas
Copyright policy )Advances in numerical modeling of astrophysical and space plasmas
First we review the dynamical and fluid properties of the plasma state, plasma kinetics, and the radiation emitted from plasmas. Then we outline the formulation for the particle-in-cell simulation of astrophysical plasmas and advances in simulational techniques and algorithms, as well as the advances that may be expected as the computational resource grows to petaflop speed/memory capabilities.
- Los Alamos National Laboratory United States
- United States Department of Energy United States
Other numerical methods (fluid mechanics), Computational methods for problems pertaining to astronomy and astrophysics, electric space, multi-level simulation, Research exposition (monographs, survey articles) pertaining to fluid mechanics, radiation, time scaling, plasma kinetics, Ionized gas flow in electromagnetic fields; plasmic flow, particle-in-cell simulation, Hydrodynamic and hydromagnetic problems in astronomy and astrophysics
Other numerical methods (fluid mechanics), Computational methods for problems pertaining to astronomy and astrophysics, electric space, multi-level simulation, Research exposition (monographs, survey articles) pertaining to fluid mechanics, radiation, time scaling, plasma kinetics, Ionized gas flow in electromagnetic fields; plasmic flow, particle-in-cell simulation, Hydrodynamic and hydromagnetic problems in astronomy and astrophysics
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