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3D modeling of a double-driver ion source considering ion magnetization: an investigation of plasma symmetry modulation methods
by
Wang, You-Nian
, Lei, Guang-Jiu
, Xing, Si-Yu
, Zhao, Miao
, Gao, Fei
, Zhang, Yu-Ru
in
Beam injection
/ Charged particles
/ Density distribution
/ Electron density
/ Electron energy
/ Engineering test reactors
/ Hydrogen
/ Hydrogen ions
/ Ion density (concentration)
/ Ion sources
/ Magnetic shielding
/ Magnetization
/ Neutral beams
/ Permanent magnets
/ Spatial distribution
/ Symmetry
2024
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3D modeling of a double-driver ion source considering ion magnetization: an investigation of plasma symmetry modulation methods
by
Wang, You-Nian
, Lei, Guang-Jiu
, Xing, Si-Yu
, Zhao, Miao
, Gao, Fei
, Zhang, Yu-Ru
in
Beam injection
/ Charged particles
/ Density distribution
/ Electron density
/ Electron energy
/ Engineering test reactors
/ Hydrogen
/ Hydrogen ions
/ Ion density (concentration)
/ Ion sources
/ Magnetic shielding
/ Magnetization
/ Neutral beams
/ Permanent magnets
/ Spatial distribution
/ Symmetry
2024
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3D modeling of a double-driver ion source considering ion magnetization: an investigation of plasma symmetry modulation methods
by
Wang, You-Nian
, Lei, Guang-Jiu
, Xing, Si-Yu
, Zhao, Miao
, Gao, Fei
, Zhang, Yu-Ru
in
Beam injection
/ Charged particles
/ Density distribution
/ Electron density
/ Electron energy
/ Engineering test reactors
/ Hydrogen
/ Hydrogen ions
/ Ion density (concentration)
/ Ion sources
/ Magnetic shielding
/ Magnetization
/ Neutral beams
/ Permanent magnets
/ Spatial distribution
/ Symmetry
2024
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3D modeling of a double-driver ion source considering ion magnetization: an investigation of plasma symmetry modulation methods
Journal Article
3D modeling of a double-driver ion source considering ion magnetization: an investigation of plasma symmetry modulation methods
2024
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Overview
A three-dimensional fluid model of a double-driver negative hydrogen ion source for China Fusion Engineering Test Reactor (CFETR) neutral beam injection is developed. In this model, the magnetic filter field is generated by 16 permanent magnets, which are surrounded by a soft iron. In order to accurately describe the transportation of charged species in the presence of strong magnetic field, both the electron magnetization and ion magnetization are taken into account, and the accuracy of the model has been proved by comparison with experimental data. By employing this model, the spatial distributions of the plasma parameters have been investigated, and three methods are proposed to optimize the symmetry at the bottom of the expansion region of a double-driver source. The results indicate that by adjusting the power of Driver I while keeping the power of Driver II constant, the symmetry of the electron density and negative hydrogen ion density could be improved. Furthermore, the inclusion of partition improves the symmetry of the electron temperature and density but has no impact on the regulation of the negative hydrogen ion density distribution. Finally, the application of magnetic shield can not only improve the symmetry of the electron density and negative hydrogen ion density, but also increase their densities at the bottom of the expansion region.
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