EPJ Web of Conferences (Jan 2017)

Monte carlo simulations of Yttrium reaction rates in Quinta uranium target

  • Suchopár M.,
  • Wagner V.,
  • Svoboda O.,
  • Vrzalová J.,
  • Chudoba P.,
  • Tichý P.,
  • Kugler A.,
  • Adam J.,
  • Závorka L.,
  • Baldin A.,
  • Furman W.,
  • Kadykov M.,
  • Khushvaktov J.,
  • Solnyshkin A.,
  • Tsoupko-Sitnikov V.,
  • Tyutyunnikov S.,
  • Bielewicz M.,
  • Kilim S.,
  • Strugalska-Gola E.,
  • Szuta M.

DOI
https://doi.org/10.1051/epjconf/201713810003
Journal volume & issue
Vol. 138
p. 10003

Abstract

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The international collaboration Energy and Transmutation of Radioactive Waste (E&T RAW) performed intensive studies of several simple accelerator-driven system (ADS) setups consisting of lead, uranium and graphite which were irradiated by relativistic proton and deuteron beams in the past years at the Joint Institute for Nuclear Research (JINR) in Dubna, Russia. The most recent setup called Quinta, consisting of natural uranium target-blanket and lead shielding, was irradiated by deuteron beams in the energy range between 1 and 8 GeV in three accelerator runs at JINR Nuclotron in 2011 and 2012 with yttrium samples among others inserted inside the setup to measure the neutron flux in various places. Suitable activation detectors serve as one of possible tools for monitoring of proton and deuteron beams and for measurements of neutron field distribution in ADS studies. Yttrium is one of such suitable materials for monitoring of high energy neutrons. Various threshold reactions can be observed in yttrium samples. The yields of isotopes produced in the samples were determined using the activation method. Monte Carlo simulations of the reaction rates leading to production of different isotopes were performed in the MCNPX transport code and compared with the experimental results obtained from the yttrium samples.