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《中国物理C》(英文)编辑部
2024年10月30日

Particle-in-cell mode beam dynamics simulation of the low energy beam transport for the SSC-linac injector

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XIAO Chen, HE Yuan, YUAN You-Jin, YAO Qing-Gao, WANG Zhi-Jun, CHANG Wei, LIU Yong and XIA Jia-Wen. Particle-in-cell mode beam dynamics simulation of the low energy beam transport for the SSC-linac injector[J]. Chinese Physics C, 2011, 35(5): 500-504. doi: 10.1088/1674-1137/35/5/019
XIAO Chen, HE Yuan, YUAN You-Jin, YAO Qing-Gao, WANG Zhi-Jun, CHANG Wei, LIU Yong and XIA Jia-Wen. Particle-in-cell mode beam dynamics simulation of the low energy beam transport for the SSC-linac injector[J]. Chinese Physics C, 2011, 35(5): 500-504.  doi: 10.1088/1674-1137/35/5/019 shu
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Received: 2010-07-21
Revised: 2010-09-28
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Particle-in-cell mode beam dynamics simulation of the low energy beam transport for the SSC-linac injector

Abstract: A new SSC-linac system (injector into separated sector cyclotron) is being designed in the HIRFL (heavy ion research facility of Lanzhou). As part of SSC-Linac, the LEBT (low energy beam transport) consists of seven solenoids, four quadrupoles, a bending magnet and an extra multi-harmonic buncher. The total length of this segment is about 7 meters. The beam dynamics in this LEBT has been studied using three-dimensional PIC (particle-in-cell) code BEAMPATH. The simulation results show that the continuous beam from the ion source is first well analyzed by a charge-to-mass selection system, and the beam of the selected charge-to-mass ratio is then efficiently pre-bunched by a multi-harmonic buncher and optimally matched into the RFQ (radio frequency quadrupole) for further acceleration. The principles and effects of the solenoid collimation channel are discussed, and it could limit the beam emittance by changing the aperture size.

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