EPJ Web of Conferences (Jan 2017)

Dose Measurements through the Concrete and Iron Shields under the 100 to 400 MeV Quasi-Monoenergetic Neutron Field (at RCNP, Osaka Univ.)

  • Nakane Yoshihiro,
  • Iwamoto Yosuke,
  • Hagiwara Masayuki,
  • Iwase Hiroshi,
  • Sato Tatsuhiko,
  • Masuda Akihiko,
  • Matsumoto Tetsuro,
  • Nunomiya Tomoya,
  • Yashima Hiroshi,
  • Satoh Daiki,
  • Nakashima Hiroshi,
  • Shima Tatsushi,
  • Tamii Atsushi,
  • Hatanaka Kichiji,
  • Nakamura Takashi

DOI
https://doi.org/10.1051/epjconf/201715308022
Journal volume & issue
Vol. 153
p. 08022

Abstract

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Shielding benchmark experiments are useful to verify the accuracy of calculation methods for the radiation shielding designs of high-energy accelerator facilities. In the present work, the benchmark experiments were carried out for 244- and 387-MeV quasi-monoenergetic neutron field at RCNP of Osaka University. Neutron dose rates through the test shields, 100-300 cm thick concrete and 40-100 cm thick iron, were measured by four kinds of neutron dose equivalent monitors, three kinds of wide-energy range monitors applied to high-energy neutron fields above 20 MeV and a conventional type rem monitor for neutrons up to 20 MeV, placed behind the test shields. Measured dose rates were compared one another. Measured results with the wide-energy range monitors were in agreement one another for both the concrete and the iron shields. For the conventional type rem monitor, measured results are smaller than those with the wide-energy range monitors for the concrete shields, while that are in agreements for the iron shields. The attenuation lengths were obtained from the measurements. The lengths from all the monitors are in agreement on the whole, though some differences are shown. These results are almost same as those from others measured at several hundred MeV neutron fields.

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