Author: Yuan, R.X.
Paper Title Page
MOPC06 Beam Diagnostics System for a Photo-Neutron Source Driven by 15MeV Electron Linac 57
  • Y.B. Yan, J. Chen, Z.C. Chen, Y.B. Leng, L.Y. Yu, R.X. Yuan, W.M. Zhou
    SINAP, Shanghai, People's Republic of China
  A photo-neutron source driven by 15MeV electron LINAC is under construction at Shanghai Institute of Applied Physics (SINAP). Several kinds of beam monitors (BPM, Profile and ICT) have been installed. The stripline beam position monitor with eight electrodes was designed, also for energy spread measurement. Due to the multi-bunch operation mode, a custom RF front end was adopted, which down-converts the signal from 2856MHz to 500MHz and then brings it to Libera Single Pass E. The beam position monitor was based on the integrated step-servo motor and GigE Vision camera. For the beam charge measurement we used the ICT from Bergoz and scope from Agilent. The detail of the whole beam diagnostics system development will be reported in this paper.  
TUPC43 Bunch Length Measurement With Streak Camera At SSRF Storage Ring 478
  • J. Chen, Z.C. Chen, Y.B. Leng, K.R. Ye, R.X. Yuan
    SINAP, Shanghai, People's Republic of China
  A streak camera is installed to measure the bunch length of storage ring at SSRF. The principle, structure, configuration and error analysis of the measurement is introduced. Some result of the measurement are analysed to explain the physical meaning of beam status. The system is used in daily operation and machine study at SSRF.  
WEPC28 Bunch By Bunch Transverse Beam Position Observation and Analyze During Injection at SSRF 746
  • Y.B. Leng, Y.B. Yan, Y. Yang, R.X. Yuan, N. Zhang
    SSRF, Shanghai, People's Republic of China
  Funding: Work supported by National Science Foundation of China (No. 11075198)
Top-up operation has been performed at SSRF since Dec. 2012. Orbit disturbance every 10 minutes decreased the quality of synchrotron radiation. In order to minimize this disturbance the tilts and the timing of injection kickers need to be tuning carefully based on real beam information. A set of button type pick-up and a scope based IOC were employed to capture the transient beam movement with bunch by bunch rate during injection. Several sets of observation and analyze will be discussed in this paper.