4.4 Article

Estimation of neutron and gamma-ray attenuation characteristics of some ferrites: Geant4, FLUKA and WinXCom studies

Journal

APPLIED RADIATION AND ISOTOPES
Volume 197, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.apradiso.2023.110803

Keywords

Ferrites; Gamma ray attenuation; WinXCom; GEANT4; FLUKA

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This study calculates the mass attenuation coefficient, radiation protection efficiency, and transmission factor of barium, strontium, manganese, copper, and cadmium ferrites using Geant4 and FLUKA simulations, providing important insights for the protection against neutron-gamma mixed radiation in nuclear applications. Among the studied ferrites, barium ferrite and copper ferrite exhibit superior gamma ray and fast neutron attenuation capability, respectively. This research offers a comprehensive investigation of the application of iron oxides in the field of neutron and gamma ray.
Ferrites are ceramic oxide materials consisting of mainly iron oxide and they have become massively important materials commercially and technologically, having a multitude of uses and applications. The protection against neutron-gamma mixed radiation is crucial in several nuclear applications. From this standpoint, mass attenuation coefficient, radiation protection efficiency and transmission factor of some ferrites namely barium, strontium, manganese, copper and cadmium ferrite has been computed using Geant4 and FLUKA simulations. Based on the simulated mass attenuation coefficient, other significant parameters such as linear attenuation coefficient, effective atomic and electron number, conductivity, half value layer, and mean free path were calculated for the selected ferrite materials. The validation of Monte Carlo geometry has been provided by comparing the mass attenuation coefficient results with standard WinXCom data. Gamma ray exposure buildup factors were computed using geometric progression fitting formula for the chosen ferrites in the energy range 0.015-15 MeV at penetration depths up to 40 mfp. The findings of the present work reveal that among the studied ferrites, barium ferrite and copper ferrite possess superior gamma ray and fast neutron attenuation capability, respectively. The present work provides a comprehensive investigation of the selected iron oxides in the field of neutron and gamma ray.

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