Design and performance of an epithermal neutron flux detector using 55Mn(n,γ)56Mn reaction for BNCT

Abstract

The measurement of the epithermal neutron (0.5 eV – 10 keV) flux of a boron neutron capture therapy (BNCT) treatment beam is a critical issue to its quality assessment and evaluation of the radiation dose to the treated patients. In this work, an activation detector using 55Mn(n,γ)56Mn reaction is designed by Monte Carlo simulations to measure the epithermal neutron flux of BNCT treatment beam. The detector is spherical and it has an absorber/moderator/absorber/manganese (Mn) foil arrangement from outside to inside. The activation material, i.e., Mn foil, is located at the geometrical center of the detector. After the design, the performance of the detector is evaluated by Monte Carlo simulations using the treatment neutron beams of operating reactor-based BNCT facilities. The results and related analysis indicate that the proposed detector will be efficiently applicable in the quality assessment of BNCT treatment beam and evaluation of the radiation dose to the treated patients.