dHybrid: A massively parallel code for hybrid simulations of space plasmas

A massively parallel three-dimensional hybrid particle-in-cell (PIC) code, implemented on the CRAY-T3D, is presented. The code is based on a physical model described in a previous report where the electrons are modeled as an adiabatic fluid with an arbitrary ratio of specific heats γ and the electro

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

FLASH is a publicly available high performance application code which has evolved into a modular, extensible software system from a collection of unconnected legacy codes. FLASH has been successful because its capabilities have been driven by the needs of scientific applications, without compromisin

For the realistic simulation of electron sources using field emitter arrays, the sub-micron resolution required for the emitters leads to simulation models not suitable for current serial codes. Thus, a parallel high-performance 3D Particle-In-Cell code, called Capone, has been implemented in C++ us