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Preliminary design and simulation of a 162.5 MHz high-intensity proton RFQ for an accelerator driven system |
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| Authors: | XIAO Chen ) HE Yuan LIU Yong YUAN You-Jin WANG Zhi-Jun HE Shou-Bo XU Meng-Xin LI Chao YUE Wei-Ming CHANG Wei ZHAO Hong-Wei XIA Jia-Wen Institute of Modern Physics Chinese Academy of Sciences Lanzhou China Graduate University of Chinese Academy of Sciences Beijing China School of Nuclear Science Technology Lanzhou University China |
| Affiliation: | XIAO Chen 1,2,1) HE Yuan 1 LIU Yong 1 YUAN You-Jin 1 WANG Zhi-Jun 1,3 HE Shou-Bo 1,2 XU Meng-Xin 1,2 LI Chao 1,2 YUE Wei-Ming 1 CHANG Wei 1,2 ZHAO Hong-Wei 1 XIA Jia-Wen 1 1 Institute of Modern Physics,Chinese Academy of Sciences,Lanzhou 730000,China 2 Graduate University of Chinese Academy of Sciences,Beijing 100049,China 3 School of Nuclear Science and Technology,Lanzhou University,China |
| Abstract: | A new procedure for the design and simulation of a Radio Frequency Quadrupole (RFQ) accelerator has been developed at the Argonne National Laboratory. This procedure is integrated with the beam dynamics design code DESRFQ and the simulation code TRACK, which are based on three-dimensional field calculations and the particle-in-cell mode beam dynamics simulations. This procedure has been applied to the development of a 162.5 MHz CW RFQ which is capable of delivering a 10 mA proton beam for the Accelerator Dr... |
| Keywords: | RFQ DESRFQ TRACK ADS space charge effect |
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