Spectra of scattered photons in large absorbers and their importance for the values of radiation weighting factor wR

Abstract

In its review of the present values of radiation weighting factor w_R and of possible revisions of this factor, the German Radiation Protection Commission has recommended to maintain the approach of ICRP 60 to base the selection of the w_R value for a given radiation (e.g. fission neutrons) on observed values of the relative biological effectiveness (RBE) of this radiation ‘regardless of whether the reference radiation is X rays or gamma rays’. The physical background of the German recommendation is the buildup of a strong field of energy-degraded Compton scattered photons in the human body if exposed to an external field of high-energy photons, so that the total radiation field inside the body is a mixture comprising low and high photon energies. Therefore, it is appropriate that the selection of the w_R value of the given radiation is guided by RBE values averaged over X rays and gamma rays as the reference radiations. In support of this rationale, the present paper provides a sample of Monte Carlo calculated scattered photon spectra in large absorbers exposed to high-energy photons. Depth-dependent fractional dose contributions of the scattered photons are tabulated for incident energies from 1 to 10 MeV, and estimates of the influence of their degraded energies on the biological effectiveness of the incoming radiation are presented. Accordingly, we point out that it is appropriate to use, for the purposes of ‘risk projection’, RBE values averaged over X and gamma reference radiations.