Beam Dynamics Study of the IH-DTL New Injector for HIRFL-CSR
doi: 10.11804/NuclPhysRev.34.02.170
- Received Date: 2016-04-21
- Rev Recd Date: 2016-06-11
- Publish Date: 2017-06-20
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Key words:
- Injector /
- beam dynamics design /
- IH-DTL /
- KONUS, MEBT /
- parameter analysis
Abstract: In order to improve the operation efficiency of the Cooling Storage Ring of Heavy Ion Research Facility in Lanzhou (HIRFL-CSR), a heavy ion linac (linear accelerator) was proposed and designed as a new injector for HIRFL-CSR. Following the 108.48 MHz Radio-Frequency Quadrupole (RFQ), three tanks in total with Interdigital H-mode drift tube linac (IH-DTL) structure are installed to boost the beam energy from 0.3 to 3.71 MeV/u, and the beam current of ions with charge-to-mass ratio from 1/8.5 to 1/3 can reach to 3 mA. The first tank operatesat the same frequency as the RFQ, and the rest two operate at 216.96 MHz. The “Combined Zero-Degree Synchronous Particle Structure” (KONUS) beam dynamics was used in the beam dynamics design. The overview of the physics design on the main accelerating components, including RF design and beam dynamics design are introduced in this paper. The optimized structure design, fabrication status and simulation results are presented in this contribution. It shows that under the condition of assurance of 95.3% transmission efficiency, the normalized rms emittance is about 25%. When the beam current is up to 3 mA, owing to the space charge effect, the increase of longitudinal phase spread and transverse envelope are about 25% and 16.3%, respectively.
Citation: | QIAO Jian, YIN Xuejun, YUAN Youjin, YANG Jiancheng, MAO Lijun, YIN Dayu, ZHANG Xiaohu, DU Heng, LI Xiaoni, LI Zhongshan, WU Bo, ZHAO He, TANG Meitang, QIN Yuanshuai, SHI Jian, SHENG Lina, CHAI Weiping, SHEN Guodong, RUAN Shuang, WANG Geng, LIU Jie, QIN Zhiming, WANG Kedong, DONG Ziqiang, CAI Fucheng, CHEN Xiaoqiang, KONG Qiyu. Beam Dynamics Study of the IH-DTL New Injector for HIRFL-CSR[J]. Nuclear Physics Review, 2017, 34(2): 170-176. doi: 10.11804/NuclPhysRev.34.02.170 |