A parallel, relativistic, three-dimensional particle-in-cell code SPACE has been developed for the simulation of electromagnetic fields, relativistic particle beams, and plasmas. In addition to the standard second-order Particle-in-Cell (PIC) algorithm, SPACE includes efficient novel algorithms to resolve atomic physics processes such as multi-level ionization of plasma atoms, recombination, and electron attachment to dopants in dense neutral gases. SPACE also contains a highly adaptive particle-based method, called Adaptive Particle-in-Cloud (AP-Cloud), for solving the Vlasov-Poisson problems. It eliminates the traditional Cartesian mesh of PIC and replaces it with an adaptive octree data structure. The code's algorithms, structure, capabi...
Abstract: The paper contents description of an economic and efficient method of program re...
A customized finite-difference field solver for the particle-in-cell (PIC) algorithm that provides h...
In this paper we present a new three dimensional (3D) full electromagnetic relativistic hybrid plasm...
A parallel, relativistic, three-dimensional particle-in-cell code SPACE has been developed for the s...
We present the parallel particle-in-cell (PIC) code Apar-T and, more importantly, address the fundam...
A newly developed relativistic Vlasov code is introduced. The governing Vlasov-Maxwell equation syst...
Numerical heating in particle-in-cell (PIC) codes currently precludes the accurate simulation of col...
This dissertation presents two bodies of work on the theoretical and numerical study of plasma waves...
We present a numerical code (AViDA) specifically designed to address multi-scale plasma physics prob...
In the recent years the PIC simulations of plasma sources have become increasingly important to inve...
This dissertation concerns the development and use of numerical simulation techniques for studying n...
We present a Vlasov–DArwin numerical code (ViDA) specifically designed to address plasma physics pr...
Particle simulations, in which collective phenomena in plasmas are studied by following the self con...
Energy conserving particle-in-cell schemes are constructed for a class of reduced relativistic Vlaso...
Over the past years, SLAC's Advanced Computations Department (ACD) has developed the parallel finite...
Abstract: The paper contents description of an economic and efficient method of program re...
A customized finite-difference field solver for the particle-in-cell (PIC) algorithm that provides h...
In this paper we present a new three dimensional (3D) full electromagnetic relativistic hybrid plasm...
A parallel, relativistic, three-dimensional particle-in-cell code SPACE has been developed for the s...
We present the parallel particle-in-cell (PIC) code Apar-T and, more importantly, address the fundam...
A newly developed relativistic Vlasov code is introduced. The governing Vlasov-Maxwell equation syst...
Numerical heating in particle-in-cell (PIC) codes currently precludes the accurate simulation of col...
This dissertation presents two bodies of work on the theoretical and numerical study of plasma waves...
We present a numerical code (AViDA) specifically designed to address multi-scale plasma physics prob...
In the recent years the PIC simulations of plasma sources have become increasingly important to inve...
This dissertation concerns the development and use of numerical simulation techniques for studying n...
We present a Vlasov–DArwin numerical code (ViDA) specifically designed to address plasma physics pr...
Particle simulations, in which collective phenomena in plasmas are studied by following the self con...
Energy conserving particle-in-cell schemes are constructed for a class of reduced relativistic Vlaso...
Over the past years, SLAC's Advanced Computations Department (ACD) has developed the parallel finite...
Abstract: The paper contents description of an economic and efficient method of program re...
A customized finite-difference field solver for the particle-in-cell (PIC) algorithm that provides h...
In this paper we present a new three dimensional (3D) full electromagnetic relativistic hybrid plasm...