Comparison of particle-in-cell simulation with experiment for thetransport system of the superconducting electron cyclotron resonance ionsource VENUS

The three-dimensional, particle-in-cell code WARP has been enhanced to allow end-to-end beam dynamics simulations of the VENUS beam transport system from the extraction region, through a mass-analyzing magnet, and up to a two-axis emittance scanner. This paper presents first results of comparisons b...

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Veröffentlicht in:	Review of scientific instruments 2005-09, Vol.77
Hauptverfasser:	Todd, DamonS, Leitner, Daniela, Leitner, Matthaeus, Lyneis,Claude M., Qiang, Ji, Grote, Dave P.
Format:	Artikel
Sprache:	eng
Schlagworte:	BEAM DYNAMICS BEAM TRANSPORT CURRENT DENSITY ELECTRON CYCLOTRON-RESONANCE HELIUM ION SOURCES MAGNETIC CONFINEMENT PARTICLE ACCELERATORS PHASE SPACE SIMULATION SPACE CHARGE TRANSPORT VENUS WARP simulation
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creator	Todd, DamonS Leitner, Daniela Leitner, Matthaeus Lyneis,Claude M. Qiang, Ji Grote, Dave P.
description	The three-dimensional, particle-in-cell code WARP has been enhanced to allow end-to-end beam dynamics simulations of the VENUS beam transport system from the extraction region, through a mass-analyzing magnet, and up to a two-axis emittance scanner. This paper presents first results of comparisons between simulation and experimental data. A helium beam (He+, He2+) is chosen as an initial comparison beam due to its simple mass spectrum. Although a number of simplifications are made for the initial extracted beam, aberration characteristics appear in simulations that are also present in experimental phase space current density measurements. Further, measurements of phase space tilt indicate that simulations must have little or no space charge neutralization along the transport system to best agree with experiment. In addition, recent measurements of triangular beam structure immediately after the source are presented. This beam structure is related to the source magnetic confinement fields and will need to be taken into account as the initial beam approximations are lifted.
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subjects	BEAM DYNAMICS BEAM TRANSPORT CURRENT DENSITY ELECTRON CYCLOTRON-RESONANCE HELIUM ION SOURCES MAGNETIC CONFINEMENT PARTICLE ACCELERATORS PHASE SPACE SIMULATION SPACE CHARGE TRANSPORT VENUS WARP simulation
title	Comparison of particle-in-cell simulation with experiment for thetransport system of the superconducting electron cyclotron resonance ionsource VENUS
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