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Organ absorbed doses are calculated for human exposure to terrestrial gamma radiation using a two-stage voxel-based Monte Carlo simulation in which the human body is represented by the voxel ICRP110 phantoms integrated in the Geant4 Monte Carlo code. The transport of photons in the soil-air medium is optimised by using a proven optimised geometry that allows tracking only those photons that have a high chance of reaching the standing reference phantom on the ground. For an optimal tracking within the voxel phantom, a nested parameterisation navigation technique implemented in Geant4 is applied. The organ-absorbed doses and the correspondent effective dose are calculated for the natural radioactive series of 238 U and 232 Th and for the 40 K and 137 Cs radionuclides. The results are compared to published studies that used the less precise mathematical based MIRD phantoms and to results derived from the ICRP144 report using the most advanced voxel phantom. The degree of agreement and the source of discrepancy between the realistic voxel model of the human body and the mathematical model used in the literature are analysed.
Bouzouita et al. (Fri,) studied this question.
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