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Chinese Physics C> 2006, Vol. 30> Issue(S1) : 114-116 

Physical Design of A Low-Energy-Spread RFQ Accelerator

  •  Key Laboratory of Heavy Ion Physics at Peking University, Ministry of Education, Beijing 100871, China

  • Beam dynamics design of an RFQ with low energy spread is introduced. The energy spread of the output 14C beam is about 0.6%, which shows the feasibility to use RFQ in the AMS facility instead of tandem accelerators. The RFQ is also compact with low power dissipation. The isotopes 14C, 13C and 12C can be fully separated in the RFQ, so the AMS background could be reduced and the whole system may be simple.
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    [1] . Synal H A, Jacob S, Suter M. Nucl. Instr. and Meth., 2000,B172: 12. ZHANG Hong-Lin. Master Thesis, Peking University. 2001(in Chinese)(张宏林.北京大学硕士研究生学位论文,2001)3. GUO Zhi-Yu, FANG Jia-Xun, ZHANG Chuan et al. Pre-liminary Design of a RFQ Accelerator with Pre-Buncher.In: Proceedings of the 8th National Conference on Acceler-ator Physics. Mianyang, Sichuan, August 2002(in Chinese)(郭之虞,方家驯,张川等.采用预聚束器的RFQ加速器的初步设计.见:第八届个国加速器物理交流会论文集.四川绵阳,2002年8月)4. Koscielniak S, Laxdal R E, Lee R et al. Beam DynamicsStudies on the ISAC RFQ at TRIUMF, Proc. PAC’97,1997, 1102—11045. Suter M. Nucl. Instr. and Meth., 1998, B139: 150—157

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GUO Zhi-Yu, XIE Yi, LIU Ke-Xin, FANG Jia-Xun, YANG Xue-Qing and CHEN Jia-Rong. Physical Design of A Low-Energy-Spread RFQ Accelerator[J]. Chinese Physics C, 2006, 30(S1): 114-116.
GUO Zhi-Yu, XIE Yi, LIU Ke-Xin, FANG Jia-Xun, YANG Xue-Qing and CHEN Jia-Rong. Physical Design of A Low-Energy-Spread RFQ Accelerator[J]. Chinese Physics C, 2006, 30(S1): 114-116. shu
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Received: 2005-12-07
Revised: 1900-01-01
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Physical Design of A Low-Energy-Spread RFQ Accelerator

    Corresponding author: GUO Zhi-Yu,
  • Key Laboratory of Heavy Ion Physics at Peking University, Ministry of Education, Beijing 100871, China
  • Received Date: 2005-12-07
  • Accepted Date: 1900-01-01
  • Available Online: 2006-01-04

Abstract: Beam dynamics design of an RFQ with low energy spread is introduced. The energy spread of the output 14C beam is about 0.6%, which shows the feasibility to use RFQ in the AMS facility instead of tandem accelerators. The RFQ is also compact with low power dissipation. The isotopes 14C, 13C and 12C can be fully separated in the RFQ, so the AMS background could be reduced and the whole system may be simple.

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