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Cheng, C.

Paper Title Page
MOPEC071 The Compact Pulsed Hadron Source Construction Status 633
 
  • J. Wei, Y.J. Bai, J.C. Cai, H. Chen, C. Cheng, Q. Du, T. Du, Q.X. Feng, Z. Feng, H. Gong, X. Guan, X.X. Han, T.C. Huang, Z.F. Huang, R.K. Li, W.Q. Li, C.-K. Loong, C.-X. Tang, Y. Tian, X.W. Wang, X.F. Xie, Q.Z. Xing, Z.F. Xiong, D. Xu, Y.G. Yang, Z. Zeng, H.Y. Zhang, X.Z. Zhang, S.X. Zheng, Z.H. Zheng, B. Zhong
    TUB, Beijing
  • J.H. Billen, L.M. Young
    LANL, Los Alamos, New Mexico
  • S. Fu, J. Tao, Y.L. Zhao
    IHEP Beijing, Beijing
  • W.Q. Guan, Y. He, G.H. Li, J. Li, D.-S. zhang
    NUCTECH, Beijing
  • J.H. Li
    CIAE, Beijing
  • T.J. Liang
    Institute of Physics, Chinese Academy of Sciences, Beijing
  • Z.W. Liu, L.T. Sun, H.W. Zhao
    IMP, Lanzhou
  • B.B. Shao
    Tsinghua University, Beijing
  • J. Stovall
    CERN, Geneva
  
 

This paper reports the design and construction status, technical challenges, and future perspectives of the proton-linac based Compact Pulsed Hadron Source (CPHS) at the Tsinghua University, Beijing, China.

  
MOPD047 Design of the CPHS RFQ Linac at Tsinghua University 792
 
  • Q.Z. Xing, Y.J. Bai, J.C. Cai, C. Cheng, T. Du, X. Guan, J. Wei, Z.F. Xiong, H.Y. Zhang, S.X. Zheng
    TUB, Beijing
  • J.H. Billen, J. Stovall, L.M. Young
    TechSource, Santa Fe, New Mexico
  • W.Q. Guan, Y. He, J. Li
    NUCTECH, Beijing
  
 

The design progress of the Radio Frequency Quadrupole (RFQ) accelerator for the Compact Pulsed Hadron Source (CPHS) at Tsinghua University is presented in this paper. The RFQ will accelerate protons from 50 keV to 3 MeV, with the RF frequency of 325 MHz. The objective is to obtain the optimum structure of the RFQ accelerator with high transmission rate and tolerable total length. The beam dynamics are studied by the simulation of the proton beam in the RFQ accelerator with the code of PARMTEQM. The output proton beam from the RFQ is well matched into the DTL without Medium-Energy-Beam-Transport (MEBT) between the RFQ and DTL.


* K.R. Crandall et al., RFQ Design Codes, LA-UR-96-1836.

  
THPEA025 HOM Characteristics Measurement of Mini-LIA Cavity 3732
 
  • C. Cheng, J.S. Duo, J. Lv, S.X. Zheng
    TUB, Beijing
  • J. Li
    CAEP/IFP, Mainyang, Sichuan
  
 

Mini-LIA was a miniature linear induction accelerator designed and manufactured by China Academy of Engineering Physics and Tsinghua University. To investigate the higher order mode (HOM) of Mini-LIA cavity, especially the frequency and quality factor Q of the TM110 and TM120 in it, both numerical simulation and experiments were performed. Several models of the cavity were established and calculated by using E module of MAFIA code. Network analyzer was applied to measure the frequency and Q in cavity. Both the simulation results and the experiment results are presented in this paper. The results of the experiments were coincident with the calculated results. Finally, The HOM characteristic of Mini-LIA cavity with metglass core in it was explored, and some interesting results was obtained.