Add to ORKGThe nonlinear space-charge effects are an important topic in high intensity accelerator beam dynamics and have been extensively studied using macroparticle tracking simulations. In this paper, we report on recent advances in the simulation of space-charge effects using a symplectic multiparticle space-charge model. The transverse space-charge limit was explored for a periodic focusing and defocusing lattice. The artificial numerical emittance growth in the macroparticle space-charge simulation was analyzed using a one-dimensional model
Beams injected into a linear focusing channel typically have some degree of space-charge nonuniformi...
The use of transversely split beams was proposed some years ago as a means to perform extraction fro...
Longitudinal space-charge waves can introduce energy perturbations into charge particle beams and de...
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...
Space-charge effects play an important role in high intensity particle accelerators and were studied...
Symplectic tracking is important in accelerator beam dynamics simulation. So far, to the best of our...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...
An algorithm has been developed to compute particle tracking, including self-consistent space charge...
The problem of space charge continues to be interesting in connection with the development of the Ka...
The evaluation of the space-charge effects on the beam dynamics requires CPU-time intensive numerica...
Theoretical and numerical studies of the transport in vacuum of multi-nC, multi-MeV electron beams a...
Space-charge effects play an important role in high intensity and high brightness particle accelerat...
Space charge debunching is a major issue for future high-gradient, high-frequency accelerator techni...
Space charge effects can be very important for the dynamics of intense particle beams, as they repea...
Beams injected into a linear focusing channel typically have some degree of space-charge nonuniformi...
The use of transversely split beams was proposed some years ago as a means to perform extraction fro...
Longitudinal space-charge waves can introduce energy perturbations into charge particle beams and de...
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...
Space-charge effects play an important role in high intensity particle accelerators and were studied...
Symplectic tracking is important in accelerator beam dynamics simulation. So far, to the best of our...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...
An algorithm has been developed to compute particle tracking, including self-consistent space charge...
The problem of space charge continues to be interesting in connection with the development of the Ka...
The evaluation of the space-charge effects on the beam dynamics requires CPU-time intensive numerica...
Theoretical and numerical studies of the transport in vacuum of multi-nC, multi-MeV electron beams a...
Space-charge effects play an important role in high intensity and high brightness particle accelerat...
Space charge debunching is a major issue for future high-gradient, high-frequency accelerator techni...
Space charge effects can be very important for the dynamics of intense particle beams, as they repea...
Beams injected into a linear focusing channel typically have some degree of space-charge nonuniformi...
The use of transversely split beams was proposed some years ago as a means to perform extraction fro...
Longitudinal space-charge waves can introduce energy perturbations into charge particle beams and de...