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Zong Z.G.

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WEP34Research and development of 1.3 GHz low loss cavities made of China large grain at IHEP549
 
  • Z. G. Zong, J. Gao, H. Sun, F. C. Zhao, M. Q. Ge, J. Gu, Q. J. Xu, J. Z. Zhai
    IHEP, CAS
  • L. Zhang, L. Q. Liu
    TIPC, CAS
 
 Institute of High Energy Physics, IHEP, has studied superconducting RF cavities since Oct. 2000. To contribute to International Linear Collider (ILC) for which superconducting RF cavity was chosen, research and development of 1.3 GHz low loss cavities using China large grain niobium was carried out recently at IHEP. The study is based on the latest research direction in the material and the shape of the cavity and involves the design of low loss shape for higher gradient and fabrication using large grain niobium material. The shape and some parameters of the cavity will be presented in this paper and be compared with alternative structure (low loss cavity) design data. In the manufacture the cavity was formed by standard procedures, such as deep drawing, trimming and welding by electron beam. To prepare the RF surface for vertically cryogenic test, centrifugal barrel polishing, barrel chemical polishing, annealing, high pressure rinsing and baking were employed. This paper introduces the features of the fabrication and surface treatments on the large grain cavity and presents the preliminary results of the research. 
WEP78Design of a 9-cell cavity ILC test cryomodule in CHINA692
 
  • Q. J. Xu, J. Y. Zhai, C. H. Li, Y. Sun, Z. L. Hou, J. Gao
    IHEP, CAS
  • T. X. Zhao, L. Y. Xiong, W. H. Lu, Z. G. Zong, L. Q. Liu, L. Zhang
    TIPC, CAS
 
 Technical design of a 9-cell cavity cryomodule has been finished by a collaboration group between IHEP (Institute of High Energy Physics) and TIPC (Technical Institute of Physics and Chemistry), which was set up in last October for the ILC cryomodule related R&D work in China. The designed Cryomodule is a "test model" for the ILC cryomodule, and as a component of a superconducting accelerator test unit which will be built in the near future. It also can be used for the horizontal test of a 9-cell cavity. This paper presents the detail structure, cryogenic flow diagram, thermal and mechanical simulation of the cryomodule.