High precision modeling of space-charge effects is essential for designing future accelerators as well as optimizing the performance of existing machines. Synergia is a high-fidelity parallel beam dynamics simulation package with fully three dimensional space-charge capabilities and a higher-order optics implementation. We describe the Synergia framework and model benchmarks we obtained by comparing to semi-analytic results and other codes. We also present Synergia simulations of the Fermilab Booster accelerator and comparisons with experiment
The paper presents the integration of the SIMBAD space charge module in the UAL framework. SIMBAD is...
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...
High precision modeling of space-charge effects, together with accurate treatment of single-particle...
High precision modeling of space-charge effects, together with accurate treatment of single-particle...
High precision modeling of space-charge effects, to-gether with accurate treatment of single-particl...
High precision modeling of space-charge effects is essential for designing future accelerators as we...
We describe Synergia, a hybrid code developed under the DOE SciDAC-supported Accelerator Simulation ...
We present a study of the beam evolution in the Fermilab Booster operating both under nominal condit...
Synergia is a 3-D, parallel, particle-in-cell beam dynamics simulation toolkit. At the heart of the ...
The Fermilab Booster is an important testing ground for our understanding of space-charge e®ects in ...
In this paper, we report on progress that has been made in beam dynamics simulation, from light sour...
Abstract. Derived from the Vlasov equation the Ensemble Model [1] has been elaborated for fast and e...
The design and performance optimization of particle accelerators are essential for the success of th...
The design and performance optimization of particle accelerators is essential for the success of the...
The paper presents the integration of the SIMBAD space charge module in the UAL framework. SIMBAD is...
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...
High precision modeling of space-charge effects, together with accurate treatment of single-particle...
High precision modeling of space-charge effects, together with accurate treatment of single-particle...
High precision modeling of space-charge effects, to-gether with accurate treatment of single-particl...
High precision modeling of space-charge effects is essential for designing future accelerators as we...
We describe Synergia, a hybrid code developed under the DOE SciDAC-supported Accelerator Simulation ...
We present a study of the beam evolution in the Fermilab Booster operating both under nominal condit...
Synergia is a 3-D, parallel, particle-in-cell beam dynamics simulation toolkit. At the heart of the ...
The Fermilab Booster is an important testing ground for our understanding of space-charge e®ects in ...
In this paper, we report on progress that has been made in beam dynamics simulation, from light sour...
Abstract. Derived from the Vlasov equation the Ensemble Model [1] has been elaborated for fast and e...
The design and performance optimization of particle accelerators are essential for the success of th...
The design and performance optimization of particle accelerators is essential for the success of the...
The paper presents the integration of the SIMBAD space charge module in the UAL framework. SIMBAD is...
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
Intensities of particle beams provided by particle accelerators are raised to levels where the self-...