Researches and preliminary experiments on copper-niobium sputtered low-β superconducting resonator

Jian Kui Hao, Kui Zhao, Bao Cheng Zhang, Da Lin Xie, Li Fang Wang, Sheng Wen Quan, Zi Lin Shen, Yu Xing Tang, Yun Chi Zhang, Xi Yang, Yan Le Hu, Kun Zhao

Research output: Contribution to journalArticle

Abstract

Superconducting resonator is the important component of a superconducting accelerator. The best choice of the acceleration cavity for heavy ion superconducting accelerator is quarter wave resonator (QWR). By sputtering a layer of niobium films of several microns on the OFHC copper substrate, good superconducting properties and acceleration properties of the cavity can be obtained. However, it is very difficult to get uniform niobium films by sputtering because the inner surface of the QWR is complicated. To deal with this problem, we developed a multiparameter adjusting method to control the sputtering process of different parts of the QWR. A layer of uniform niobium film with nice superconducting performance is obtained. The low temperature experiments with liquid helium show that the Cu-Nb QWR has good superconducting characters. The Q-value of the cavity is about 5 × 108.

Original languageEnglish (US)
Number of pages1
JournalKao Neng Wu Li Yu Ho Wu Li/High Energy Physics and Nuclear Physics
Volume25
Issue number6
StatePublished - Jun 1 2001

Keywords

  • Film
  • Low temperature experiment
  • QWR
  • Sputter
  • Supercondcuting cavity

ASJC Scopus subject areas

  • Nuclear and High Energy Physics
  • Physics and Astronomy(all)

Fingerprint Dive into the research topics of 'Researches and preliminary experiments on copper-niobium sputtered low-β superconducting resonator'. Together they form a unique fingerprint.

  • Cite this

    Hao, J. K., Zhao, K., Zhang, B. C., Xie, D. L., Wang, L. F., Quan, S. W., Shen, Z. L., Tang, Y. X., Zhang, Y. C., Yang, X., Hu, Y. L., & Zhao, K. (2001). Researches and preliminary experiments on copper-niobium sputtered low-β superconducting resonator. Kao Neng Wu Li Yu Ho Wu Li/High Energy Physics and Nuclear Physics, 25(6).