This paper summarizes the results of an intercomparison on the use of the ICRP Reference
Computational Phantoms with radiation transport codes, which was organized by …

EURADOS Working Group 6 has organized an intercomparison exercise on the use of the
ICRP Reference Computational Phantoms with radiation transport codes. This paper …

The concept of “effective dose” was introduced in 1975 to provide a mechanism for
assessing the radiation detriment from partial body irradiations in terms of data derived from …

Efforts have been made to assess the dose equivalent in various organs or tissues (the
organ dose equivalent, hereafter for simplicity) and the effective dose equivalent due to …

In internal radiation dosimetry, a phantom is a mathematical representation of the human
body which, when coupled with a Monte Carlo radiation transport computer code, can be …

Abstract The Monte Carlo program 'Visual Monte Carlo-dose calculation'(VMC-dc) uses a
voxel phantom to simulate the body organs and tissues, transports photons through this …

Abstract Working Group (WG) 6'Computational Dosimetry'of the European Radiation
Dosimetry Group promotes good practice in the application of computational methods for …

The general purpose Monte Carlo N-Particle Radiation Transport Computer Code
(MCNP4C) was used to calculate the equivalent dose to the person or people …

The distribution of absorbed doses in the body can be computationally determined using
mathematical or tomographic representations of human anatomy. A whole-body model was …

Abstract Purpose This work compares Monte Carlo dose calculations performed using the
RayStation treatment planning system against data measured on a Varian Truebeam linear …