Add to ORKGSymplectic tracking is important in accelerator beam dynamics simulation. So far, to the best of our knowledge, there is no self-consistent symplectic space-charge tracking model available in the accelerator community. In this paper, we present a two-dimensional and a three-dimensional symplectic multiparticle spectral model for space-charge tracking simulation. This model includes both the effect from external fields and the effect of self-consistent space-charge fields using a split-operator method. Such a model preserves the phase space structure and shows much less numerical emittance growth than the particle-in-cell model in the illustrative examples
Fast calculation of 3D non-linear space-charge fields is essential for the simulation of high-bright...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...
For the simulation of high-brightness electron bunches, a new 3D space-charge model is being impleme...
Symplectic tracking is important in accelerator beam dynamics simulation. So far, to the best of our...
Space-charge effects play an important role in high intensity particle accelerators and were studied...
The nonlinear space-charge effects are an important topic in high intensity accelerator beam dynamic...
The long-term macroparticle tracking simulation is computationally challenging but needed in order t...
An algorithm has been developed to compute particle tracking, including self-consistent space charge...
An algorithm has been developed to compute particle tracking, including self-consistent space charge...
Abstract. Derived from the Vlasov equation the Ensemble Model [1] has been elaborated for fast and e...
Space charge in high intensity beams is an important issue in accelerator physics. Due to the compli...
Numerical prediction of charged particle dynamics in accelerators is essential for the design and un...
Although many space-charge simulations have been developed for linacs, beamlines, and idealized ring...
Space charge in high intensity beams is an important issue in accelerator physics. Due to the compli...
A symplectic multi-particle tracking model is implemented on the Graphic Processing Units (GPUs) usi...
Fast calculation of 3D non-linear space-charge fields is essential for the simulation of high-bright...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...
For the simulation of high-brightness electron bunches, a new 3D space-charge model is being impleme...
Symplectic tracking is important in accelerator beam dynamics simulation. So far, to the best of our...
Space-charge effects play an important role in high intensity particle accelerators and were studied...
The nonlinear space-charge effects are an important topic in high intensity accelerator beam dynamic...
The long-term macroparticle tracking simulation is computationally challenging but needed in order t...
An algorithm has been developed to compute particle tracking, including self-consistent space charge...
An algorithm has been developed to compute particle tracking, including self-consistent space charge...
Abstract. Derived from the Vlasov equation the Ensemble Model [1] has been elaborated for fast and e...
Space charge in high intensity beams is an important issue in accelerator physics. Due to the compli...
Numerical prediction of charged particle dynamics in accelerators is essential for the design and un...
Although many space-charge simulations have been developed for linacs, beamlines, and idealized ring...
Space charge in high intensity beams is an important issue in accelerator physics. Due to the compli...
A symplectic multi-particle tracking model is implemented on the Graphic Processing Units (GPUs) usi...
Fast calculation of 3D non-linear space-charge fields is essential for the simulation of high-bright...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...
For the simulation of high-brightness electron bunches, a new 3D space-charge model is being impleme...
