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Bundy R.

PaperTitlePage
TUP01A Coaxial TE011 Cavity and a System to Measure DC and RF Properties of Superconductors98
 
  • G. Ciovati, P. Kneisel, G. R. Myneni, M. Morrone, R. Bundy, B. Clemens, T. Elliott, G. Slack, L. Turlington
    JLab
  • J. Mondal
    BARC
 
 A coaxial niobium cavity has been designed and built where the center conductor consists of a removable sample. In addition, a system to measure properties such as magnetization, penetration depth, critical temperature and thermal conductivity on the same cylindrical sample has been designed and built. The purpose of this effort is to investigate possible correlations between DC and RF properties of superconductors. In this contribution, the design of the various components is discussed and the test results on a niobium sample obtained so far are presented. 
TUP65JLAB CW Cryomodules for 4th Generation Light Sources288
 
  • R. A. Rimmer, R. Bundy, G. Cheng, G. Ciovati, W. Clemens, E. F. Daly, J. Henry, W. R. Hicks, P. Kneisel, S. Manning, R. Manus, F. Marhauser, J. Preble, C. Reece, K. Smith, M. Stirbet, L. Turlington, H. Wang, K. M. Wilson
    JLab
 
 Fourth generation light sources hold the prospect of unprecedented brightness and optical beam quality for a wide range of scientific applications. Many of the proposed new facilities will rely on large superconducting radio frequency (SRF) based linacs to provide high energy, low emittance CW electron beams. For high average power applications there is a growing acceptance of energy recovery linac (ERL) technology as the way to support large recirculating currents with modest RF power requirements. CW SRF and high current ERLs are two core competencies at Jefferson Lab. JLab has designed and built a number of CW cryomodules of several different types starting with the original CEBAF design, with variations for higher current in the two generations of JLab's free-electron laser (FEL), through two intermediate prototypes to the final high-performance module for the 12 GeV upgrade. Each of these represent fully engineered and tested configurations with a variety of specifications that could be considered for possible use in fourth generation light sources. Furthermore JLab has been actively pursuing advanced concepts for highcurrent high-efficiency cryomodules for next generation ERL based FEL's. These existing and proposed designs span the range from about 1mA single-pass to over 100 mA energy recovered current capability. Specialized configurations also exist for high-current non-energy recovered sections such as the injector region where very high RF power is required. We discuss the performance parameters of these existing and proposed designs and their suitability to different classes of fourth generation light sources.