Author: Kwon, J.W.
Paper Title Page
MOOB02
Design of Beam Diagnostics System for Heavy Ion Accelerator Facility, RAON  
 
  • H.J. Woo, Y.S. Chung, G.D. Kim
    IBS, Daejeon, Republic of Korea
  • J.W. Kwon
    Korea University, Seoul, Republic of Korea
 
  The ultimate goal of the superconducting LINAC at RISP is to accelerate uranium and proton beams up to 200 MeV/u and 600 MeV, with a maximum beam currents of 8.3 pµA and 660 pµA, respectively. The driver linac is divided into several sections: low energy superconducting linac SCL1 for stable ions and SCL3 for rare isotopes, charge stripper section, and high energy superconducting linac (SCL2). Various types of beam diagnostic devices such as beam current monitor, beam position monitor (BPM), beam profile monitor, beam phase monitor, and beam loss monitor, etc. are required for the setting of accelerator parameters, the monitoring and control of beam acceleration and transport, and improvement of accelerator system. The arrangement of beam diagnostic devices was initially based on the result of beam dynamics calculation, and now the overall layout becomes almost settled. More than 600 devices will be installed for commissioning and normal operation. This report introduces the overall layout of the beam diagnostic system and present status of the system construction.  
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