Benchmark test of transport calculations of gold and nickel activation with implications for neutron kerma at Hiroshima

Health Phys. 1992 Nov;63(5):532-41. doi: 10.1097/00004032-199211000-00004.

Abstract

A benchmark test of the Monte Carlo neutron and photon transport code system (MCNP) was performed using a 252Cf fission neutron source to validate the use of the code for the energy spectrum analyses of Hiroshima atomic bomb neutrons. Nuclear data libraries used in the Monte Carlo neutron and photon transport code calculation were ENDF/B-III, ENDF/B-IV, LASL-SUB, and ENDL-73. The neutron moderators used were granite (the main component of which is SiO2, with a small fraction of hydrogen), Newlight [polyethylene with 3.7% boron (natural)], ammonium chloride (NH4Cl), and water (H2O). Each moderator was 65 cm thick. The neutron detectors were gold and nickel foils, which were used to detect thermal and epithermal neutrons (4.9 eV) and fast neutrons (> 0.5 MeV), respectively. Measured activity data from neutron-irradiated gold and nickel foils in these moderators decreased to about 1/1,000th or 1/10,000th, which correspond to about 1,500 m ground distance from the hypocenter in Hiroshima. For both gold and nickel detectors, the measured activities and the calculated values agreed within 10%. The slopes of the depth-yield relations in each moderator, except granite, were similar for neutrons detected by the gold and nickel foils. From the results of these studies, the Monte Carlo neutron and photon transport code was verified to be accurate enough for use with the elements hydrogen, carbon, nitrogen, oxygen, silicon, chlorine, and cadmium, and for the incident 252Cf fission spectrum neutrons.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Californium*
  • Computer Simulation
  • Gold Radioisotopes
  • Gold*
  • Japan
  • Mathematics
  • Models, Theoretical
  • Neutrons*
  • Nickel*
  • Nuclear Fission*
  • Nuclear Warfare*
  • Radiation Dosage*
  • Radioisotopes

Substances

  • Gold Radioisotopes
  • Radioisotopes
  • Gold
  • Nickel
  • Californium