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Volk, J. T.

Paper Title Page
MOPAS066 Fast Neutron Radioactivity and Damage Studies on Materials 581
  • J. E. Spencer, S. D. Anderson, Z. R. Wolf
    SLAC, Menlo Park, California
  • M. Boussoufi
    UCD/MNRC, McClellan, California
  • G. Gallagher, D. E. Pellet
    UCD, Davis, California
  • J. T. Volk
    Fermilab, Batavia, Illinois
  Funding: Work supported by U. S. Dept. of Energy under contracts DE-AC02-76SF00515, DE-AC02-76CH03000 and LCRD DE-FG02-03ER41280.

Many materials and electronics need to be tested for the radiation environment expected at linear colliders (LC) to improve reliability and longevity since both accelerator and detectors will be subjected to large fluences of hadrons, leptons and gammas. Examples include NdFeB magnets, considered for the damping rings, injection and extraction lines and final focus, electronic and electro-optic devices to be utilized in detector readout, accelerator controls and the CCDs required for the vertex detector, as well as high and low temperature superconducting materials (LTSMs) because some magnets will be superconducting. Our first measurements of fast neutron, stepped doses at the UC Davis McClellan Nuclear Reactor Center (UCD MNRC) were presented for NdFeB materials at EPAC04 where the damage appeared proportional to the distances between the effective operating point and Hc. We have extended those doses, included other manufacturer's samples and measured induced radioactivities. We have also added L and HTSMs as well as a variety of relevant semiconductor and electro-optic materials including PBG fiber that we studied previously only with gamma rays.