Author: Zhang, L.W.
Paper Title Page
THPLB04 Preliminary Study of Proton Beam Transport in a 10 MeV Dielectric Wall Accelerator 816
 
  • J. Zhu, S. Chen, J. Deng, Y. Shen, J. Shi, W.D. Wang, L.S. Xia, H. Zhang, L.W. Zhang
    CAEP/IFP, Mainyang, Sichuan, People's Republic of China
 
  Funding: Nuclear Energy Technology Development project; National Natural Science Foundation of China (11035004)
A novel proton accelerator based on Dielectric Wall Accelerator (DWA) technology is being developed at Institute of Fluid Physics (IFP). The accelerating gradient will be 20 MV/m or even higher based on current high gradient insulator (HIG) performance. Theoretical study and numerical simulation of accelerating the proton beam to 10 MeV by virtual traveling wave method is presented in this paper. The beam dynamics under accelerating pulse with or without flattop is discussed.
 
slides icon Slides THPLB04 [1.191 MB]  
 
THPB002 Preliminary Study of Proton Beam Transport in a 10 MeV Dielectric Wall Accelerator 840
 
  • J. Zhu, S. Chen, J. Deng, Y. Shen, J. Shi, W.D. Wang, L.S. Xia, H. Zhang, L.W. Zhang
    CAEP/IFP, Mainyang, Sichuan, People's Republic of China
  • Y. Liu
    Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang, Sichuan, People's Republic of China
 
  Funding: Nuclear Energy Technology Development project; National Natural Science Foundation of China (11035004)
A novel proton accelerator based on Dielectric Wall Accelerator (DWA) technology is being developed at Institute of Fluid Physics (IFP). The accelerating gradient will be 20 MV/m or even higher based on current high gradient insulator (HIG) performance. Theoretical study and numerical simulation of accelerating the proton beam to 10 MeV by virtual traveling wave method is presented in this paper. The beam dynamics under accelerating pulse with or without flattop is discussed.