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Jiang, B.C.

Paper Title Page
TUPD030 Simulation of the Fast Ion Instability in SSRF Storage Ring 1991
 
  • G.X. Xia
    MPI-P, München
  • B.C. Jiang
    SINAP, Shanghai
  • L.G. Liu
    SSRF, Shanghai
 
 

Fast ion instability has been observed in the early commissioning and operation of the Shanghai Synchrotron Radiation Facility (SSRF) storage ring. In this paper, a weak-strong code is used to simulate the fast ion instability in SSRF storage ring. Various fill patterns and gas pressures are investigated. The results show that the mini-train fill patterns are very effective to suppress the growth of the fast ion instability. By employing a fast feedback system, it is possible to damp the growth of beam oscillation amplitude below the beam size.

 
WEPEA045 Beam Dynamics in the SSRF Storage Ring 2591
 
  • H.H. Li, J. Hou, B.C. Jiang, L.G. Liu, X.Y. Sun, S.Q. Tian, M.Z. Zhang, W.Z. Zhang
    SINAP, Shanghai
 
 

The SSRF (Shanghai Synchrotron Radiation Facility) storage ring consisting of 20 Double Bend Achromatic cells with four super-periods is designed with a low emittance of 3.9nm.rad on 3.5GeV beam energy. Commissioning of the storage ring began on Dec. 21st 2007, and the beam was stored within sixty hours. After one and a half years commissioning, all specifications of the storage ring were reached in 2009. In this paper, study of beam dynamics in the SSRF storage ring is presented. Results of the measurement are given in detail, such as model calibration, orbit stability, etc.