Add to ORKGIn this paper we describe parallel particle-in-cell methods for the large scale simulation of beam dynamics in linear accelerators. These techniques have been implemented in the IMPACT (Integrated Map and Particle Accelerator Tracking) code. IMPACT is being used to study the behavior of intense charged particle beams and as a tool for the design of next-generation linear accelerators. As examples, we present applications of the code to the study of emittance exchange in high intensity beams and to the study of beam transport in a proposed accelerator for the development of accelerator-driven waste transmutation technologies
MARYLIE/IMPACT (ML/I) is a hybrid code that com-bines the beam optics capabilities of MARYLIE with t...
In this paper, we report on progress that has been made in beam dynamics simulation, from light sour...
Synergia is a 3-D, parallel, particle-in-cell beam dynamics simulation toolkit. At the heart of the ...
In this paper we describe parallel particle-in-cell methods for the large scale simulation of beam ...
We present an object-oriented three-dimensional parallel particle-in-cell (PIC) code for simulation ...
In this paper, we present a self-consistent simulation model of beam-beam interaction in high energy...
In this paper, we present an object-oriented three-dimensional parallel particle-in-cell code for be...
In this paper we report on IMPACT-T, a 3D beam dynamics code for modeling high brightness beams in p...
In this paper we present results of using parallel supercomputers to simulate beam dynamics in next-...
In this paper we report on IMPACT-T, a 3D beam dynamics code for modeling high brightness beams in p...
Previous beam dynamics simulation studies using LANA code at Michigan State University (MSU) includi...
Source-to-target simulation of an accelerator provides a thorough check on the consistency of the d...
The design and operation support of hadron (proton and heavy-ion) linear accelerators require substa...
In this paper we present results of using parallel supercomputers to simulate beam dynamics in next-...
The IMPACT (Integrated Map and Particle Accelerator Tracking) code was first developed under Computa...
MARYLIE/IMPACT (ML/I) is a hybrid code that com-bines the beam optics capabilities of MARYLIE with t...
In this paper, we report on progress that has been made in beam dynamics simulation, from light sour...
Synergia is a 3-D, parallel, particle-in-cell beam dynamics simulation toolkit. At the heart of the ...
In this paper we describe parallel particle-in-cell methods for the large scale simulation of beam ...
We present an object-oriented three-dimensional parallel particle-in-cell (PIC) code for simulation ...
In this paper, we present a self-consistent simulation model of beam-beam interaction in high energy...
In this paper, we present an object-oriented three-dimensional parallel particle-in-cell code for be...
In this paper we report on IMPACT-T, a 3D beam dynamics code for modeling high brightness beams in p...
In this paper we present results of using parallel supercomputers to simulate beam dynamics in next-...
In this paper we report on IMPACT-T, a 3D beam dynamics code for modeling high brightness beams in p...
Previous beam dynamics simulation studies using LANA code at Michigan State University (MSU) includi...
Source-to-target simulation of an accelerator provides a thorough check on the consistency of the d...
The design and operation support of hadron (proton and heavy-ion) linear accelerators require substa...
In this paper we present results of using parallel supercomputers to simulate beam dynamics in next-...
The IMPACT (Integrated Map and Particle Accelerator Tracking) code was first developed under Computa...
MARYLIE/IMPACT (ML/I) is a hybrid code that com-bines the beam optics capabilities of MARYLIE with t...
In this paper, we report on progress that has been made in beam dynamics simulation, from light sour...
Synergia is a 3-D, parallel, particle-in-cell beam dynamics simulation toolkit. At the heart of the ...