Add to ORKGOver the past years, SLAC's Advanced Computations Department (ACD) has developed the parallel finite element (FE) particle-in-cell code Pic3P (Pic2P) for simulations of beam-cavity interactions dominated by space-charge effects. As opposed to standard space-charge dominated beam transport codes, which are based on the electrostatic approximation, Pic3P (Pic2P) includes space-charge, retardation and boundary effects as it self-consistently solves the complete set of Maxwell-Lorentz equations using higher-order FE methods on conformal meshes. Use of efficient, large-scale parallel processing allows for the modeling of photoinjectors with unprecedented accuracy, aiding the design and operation of the next-generation of accelerator facilities. ...
A customized finite-difference field solver for the particle-in-cell (PIC) algorithm that provides h...
The detailed numerical investigation of the highly nonlinear physics involved in the interaction of ...
In this paper we present results of using parallel supercomputers to simulate beam dynamics in next-...
SLAC's Advanced Computations Department (ACD) has developed the parallel 3D Finite Element electroma...
SLAC's Advanced Computations Department (ACD) has developed the first parallel Finite Element 3D Par...
In this paper we report on multi-physics, multi-billion macroparticle simulation of beam transport i...
We present an object-oriented three-dimensional parallel particle-in-cell (PIC) code for simulation ...
In this paper, we report on progress that has been made in beam dynamics simulation, from light sour...
The paper presents the integration of the SIMBAD space charge module in the UAL framework. SIMBAD is...
The IMPACT-T code is a parallel three-dimensional quasi-static beam dynamics code for modeling high ...
Abstract—In this paper, we present Acceleration by Laser and Dynamics of charged particles (ALaDyn),...
In this paper, we present a three-dimensional quasistatic model for high brightness beam dynamics si...
The IMPACT (Integrated Map and Particle Accelerator Tracking) code was first developed under Computa...
A parallel, relativistic, three-dimensional particle-in-cell code SPACE has been developed for the s...
The two dimensional electrostatic plasma particle in cell (PIC) code described an [1] has been upg...
A customized finite-difference field solver for the particle-in-cell (PIC) algorithm that provides h...
The detailed numerical investigation of the highly nonlinear physics involved in the interaction of ...
In this paper we present results of using parallel supercomputers to simulate beam dynamics in next-...
SLAC's Advanced Computations Department (ACD) has developed the parallel 3D Finite Element electroma...
SLAC's Advanced Computations Department (ACD) has developed the first parallel Finite Element 3D Par...
In this paper we report on multi-physics, multi-billion macroparticle simulation of beam transport i...
We present an object-oriented three-dimensional parallel particle-in-cell (PIC) code for simulation ...
In this paper, we report on progress that has been made in beam dynamics simulation, from light sour...
The paper presents the integration of the SIMBAD space charge module in the UAL framework. SIMBAD is...
The IMPACT-T code is a parallel three-dimensional quasi-static beam dynamics code for modeling high ...
Abstract—In this paper, we present Acceleration by Laser and Dynamics of charged particles (ALaDyn),...
In this paper, we present a three-dimensional quasistatic model for high brightness beam dynamics si...
The IMPACT (Integrated Map and Particle Accelerator Tracking) code was first developed under Computa...
A parallel, relativistic, three-dimensional particle-in-cell code SPACE has been developed for the s...
The two dimensional electrostatic plasma particle in cell (PIC) code described an [1] has been upg...
A customized finite-difference field solver for the particle-in-cell (PIC) algorithm that provides h...
The detailed numerical investigation of the highly nonlinear physics involved in the interaction of ...
In this paper we present results of using parallel supercomputers to simulate beam dynamics in next-...