A 3D hierarchical tree code for dense plasma simulation

the propagation of light, which in concert with the Debye length spatial resolution would require time steps of a small This paper presents a demonstration of the use of a hybrid code to model the Earth's magnetosphere on a global scale. The typical fraction of a microsecond. The electromagnetic cod

In this paper an approach to multidimensional magnetohydrodynamics (MHD) which correctly handles shocks but does not use an approximate Riemann solver is proposed. This approach is simple and is based on control volume averaging with a staggered grid. The method builds on the older and often overloo

N-body codes for performing simulations of the origin and evolution of the largescale structure of the universe have improved significantly over the past decade in terms of both the resolution achieved and the reduction of the CPU time. However, state-of-the-art N-body codes hardly allow one to deal

In order to handle one-dimensional spatial problems in plasmas with very high frequency electromagnetic waves \(\left(\omega \gg \omega_{p}\right)\), the 1 \(1 / 20\) Eulerian Vlasov code has been modified to interface with the ponderomotive force associated with the complex envelopes of the high fr