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Yoon, M.

  
Paper Title Page
TUPLT095 Precision Field Mapping System for Cyclotron Magnet 1378
 
  • K.-H. Park, Y.G. Jung, D.E. Kim, L.W.W. Lee
    PAL, Pohang
  • J.-S. Chai, Y.S. Kim
    KIRAMS, Seoul
  • B.-K. Kang, S.H. Shin, M. Yoon
    POSTECH, Pohang, Kyungbuk
  
  A 13 MeV cyclotron has been developed by KIRAMS for radio-isotopes production such as F-18 and O-15 for positron emission tomography(PET). To characterize the cyclotron magnet precisely, a Hall probe mapping system with very high precise positioning mechanism in the Cartesian coordinate has been developed. Hall probe assembly was translated in two dimensions by two stepping motors at both sides of the Hall-probe-carrier to keep synchronously rotation sharing one step-pulse source for x-axis and one motor for y-axis. The data acquisition time had reduced to 60 minutes in full mapping by 'flying' mode. The accuracy of the measurement system is better than during the entire mapping process. In this paper the magnetic field measurement system for the cyclotron magnet is described, and measurement results are presented.  
THOACH01 SPEAR3 Commissioning 216
 
  • J.A. Safranek, S. Allison, P. Bellomo, W.J. Corbett, M. Cornacchia, E. Guerra, R.O. Hettel, D. Keeley, N. Kurita, D.J. Martin, P.A. McIntosh, H. Morales, G.J. Portmann, F.S. Rafael, H. Rarback, J.J. Sebek, T. Straumann, A. Terebilo, J. Wachter, C. Wermelskirchen, M. Widmeyer, R. Yotam
    SLAC/SSRL, Menlo Park, California
  • M.J. Boland, Y.E. Tan
    ASP, Melbourne
  • J.M. Byrd, D. Robin, T. Scarvie, C. Steier
    LBNL/ALS, Berkeley, California
  • M. Böge
    PSI, Villigen
  • H.-P. Chang, C.-C. Kuo, H.-J. Tsai
    NSRRC, Hsinchu
  • W. Decking
    DESY, Hamburg
  • M.G. Fedurin, P. Jines
    LSU/CAMD, Baton Rouge, Louisiana
  • K. Harkay, V. Sajaev
    ANL/APS, Argonne, Illinois
  • S. Krinsky, B. Podobedov
    BNL/NSLS, Upton, Long Island, New York
  • L.S. Nadolski
    SOLEIL, Gif-sur-Yvette
  • A. Ropert
    ESRF, Grenoble
  • M. Yoon
    POSTECH, Pohang, Kyungbuk
  
  Starting in April, 2003, the SPEAR2 storage ring was removed and replaced with a new 500 mA, 3 GeV light source, SPEAR3. The SPEAR2 storage ring had been in use for high energy physics, then synchrotron radiation since 1972. Commissioning of SPEAR3 started on December 8, 2003 and synchrotron radiation will be delivered to the first users on March 8, 2004. SPEAR3 commissioning will be reviewed, including discussion of diagnostics, orbit control, optics correction and high current studies.  
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