For the simulation of high-brightness electron bunches, a new 3D space-charge model is being implemented in the General Particle Tracer (GPT) code. It is based on a non-equidistant multigrid solver, allowing smooth transitions from a high to a low-aspect ratio bunch during a single run. The algorithm scales linearly in CPU time with the number of particles and the insensitivity to aspect ratio ensures that it can be used for a variety of applications. Tracking examples and field comparisons with an analytical model will be shown
The General Particle Tracer (GPT) code provides a new 3D simulation package to study charged particl...
In this paper we give an overview over our algorithms developed for space charge calculations, the r...
Nonlinear space-charge effects play an important role in emittance growth in the production of kA el...
For the simulation of high-brightness electron bunches, a new 3D space-charge model is being impleme...
Abstract. For the simulation of high-brightness electron bunches, a new 3D space-charge model is bei...
For the simulation of high-brightness electron bunches, a new 3D space-charge model is being impleme...
Fast calculation of 3D non–linear space–charge fields is essential for the simulation of high–bright...
The mesh-based 3D space-charge routine in the GPT (General Particle Tracer, Pulsar Physics) code sca...
The mesh-based 3D space-charge routine in the GPT (General Particle Tracer, Pulsar Physics) code sca...
Numerical prediction of the performance of charged particle accelera- tors is essential for the desi...
Fast calculation of 3D non-linear space-charge fields is essential for the simulation of high-bright...
Numerical prediction of charged particle dynamics in accelerators is essential for the design and un...
The General Particle Tracer (GPT) code provides a new 3D simulation package to study charged particl...
In this paper we give an overview over our algorithms developed for space charge calculations, the r...
Nonlinear space-charge effects play an important role in emittance growth in the production of kA el...
For the simulation of high-brightness electron bunches, a new 3D space-charge model is being impleme...
Abstract. For the simulation of high-brightness electron bunches, a new 3D space-charge model is bei...
For the simulation of high-brightness electron bunches, a new 3D space-charge model is being impleme...
Fast calculation of 3D non–linear space–charge fields is essential for the simulation of high–bright...
The mesh-based 3D space-charge routine in the GPT (General Particle Tracer, Pulsar Physics) code sca...
The mesh-based 3D space-charge routine in the GPT (General Particle Tracer, Pulsar Physics) code sca...
Numerical prediction of the performance of charged particle accelera- tors is essential for the desi...
Fast calculation of 3D non-linear space-charge fields is essential for the simulation of high-bright...
Numerical prediction of charged particle dynamics in accelerators is essential for the design and un...
The General Particle Tracer (GPT) code provides a new 3D simulation package to study charged particl...
In this paper we give an overview over our algorithms developed for space charge calculations, the r...
Nonlinear space-charge effects play an important role in emittance growth in the production of kA el...
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