Author: Liu, R.H.
Paper Title Page
TUPWA014 The Status of Coupling Impedance Measurement for the CSNS/RCS Extraction Kicker Prototype* 1754
 
  • L. Huang, Y. Li, R.H. Liu, Y.D. Liu, S. Wang, O. Xiao
    IHEP, Beijing, People's Republic of China
 
  Rapid Cycling Synchrotron (RCS) of the China Spallation Neutron Source (CSNS) is a high intensity proton accelerator, with average beam power of 100kW. In order to high intensity beam operation, the beam coupling impedance of the extracted kickers must be controlled. Longitudinal and transverse impedance of extracted kicker prototype with power supply had been roughly measured by coaxial-wire and dual-wire methods respectively. At the same time, impedance of window has been analyzed theoretically and simulated based on CST PARTICLE STUDIO.  
 
WEPME023 Study of the Vibration of the AC Dipole and Magnetic Measurement Girder for CSNS/RCS 2980
 
  • R.H. Liu, L. Kang, H. Qu, G.Y. Wang, H.J. Wang, J. S. Zhang
    IHEP, Beijing, People's Republic of China
 
  The dipole magnet of the China Spallation Neutron Source Rapid-cycling Synchrotron (RCS) will be operated at a 25Hz sinusoidal alternating current which causes severe vibration. The vibration will influence the long-term safety and reliable operation of the magnet. By taking the magnet and magnetic measurement girder as a specific model system, a method for analyzing and studying the dynamic characteristic of the system is put forward by combining theoretical calculation with experimental testing. And the ctive vibration of magnet is different with passive vibration which was causes by ground vibration, so a new isolator was designed to decrease the vibratory force and avoid the resonance phenomenon.  
 
THPFI029 The Structure Design and Analysis of Proton Beam Window for CSNS 3361
 
  • H.J. Wang, L. Kang, R.H. Liu, H. Qu, D.H. Zhu
    IHEP, Beijing, People's Republic of China
 
  The proton beam window (PBW) is one of the key devices of China Spallation Neutron Source (CSNS). In this paper, a new designed PBW structure called single-double layer structure is discussed. The new structure will be used in CSNS, and it is designed based on the beam characteristic of CSNS, which power is 100 kW. The structure design and thermal-analysis are presented, and the convective coefficient of cooling water is calculated. Besides, the radiation damage is discussed to assure there is no danger of radiation lifetime of PBW.  
 
THPFI032 The Design and Analysis of Proton Beam Window for CSNSIII 3367
 
  • H.J. Wang, L. Kang, R.H. Liu, H. Qu, D.H. Zhu
    IHEP, Beijing, People's Republic of China
 
  The proton beam window (PBW) is one of the key devices of China Spallation Neutron Source (CSNS). When the beam power of CSNS upgrades from 100kw to 500kw (CSNSIII), the present single-double layer structure of PBW cannot meet the demands. The PBW will be changed to other structure. This paper discusses sandwiched structure and multiple pipe structure, and the later one is chosen as the PBW of CSNSIII. An appropriate convective coefficient of cooling water is chosen, based on which the detailed thermal-stress analysis is presented. Besides, the lifetime is estimated. All these analyses show the designed PBW can work well in CSNSIII.