Title : ( Facility optimization to improve activation rate distributions during IVNAA )
Authors: Atiyeh Ebrahimi Khankook , Laleh Rafat Motavali , Seyyed Hashem Miri Hakimabad ,Abstract
Currently, determination of body composition is the most useful method for distinguishing between certain diseases. The prompt-gamma in vivo neutron activation analysis (IVNAA) facility for non-destructive elemental analysis of the human body is the gold standard method for this type of analysis. In order to obtain accurate measurements using the IVNAA system, the activation probability in the body must be uniform. This can be difficult to achieve, as body shape and body composition affect the rate of activation. The aim of this study was to determine the optimum pre-moderator, in terms of material for attaining uniform activation probability with a CV value of about 10% and changing the collimator role to increase activation rate within the body. Such uniformity was obtained with a high thickness of paraffin pre-moderator, however, because of increasing secondary photon flux received by the detectors it was not an appropriate choice. Our final calculations indicated that using two paraffin slabs with a thickness of 3 cm as a pre-moderator, in the presence of 2 cm Bi on the collimator, achieves a satisfactory distribution of activation rate in the body.
Keywords
, activation rate; neutron flux uniformity; MCNP; IVNAA; pre, moderator; collimator@article{paperid:1036752,
author = {Ebrahimi Khankook, Atiyeh and Rafat Motavali, Laleh and Miri Hakimabad, Seyyed Hashem},
title = {Facility optimization to improve activation rate distributions during IVNAA},
journal = {Journal of Radiation Research},
year = {2013},
volume = {54},
number = {3},
month = {November},
issn = {0449-3060},
pages = {515--531},
numpages = {16},
keywords = {activation rate; neutron flux uniformity; MCNP; IVNAA; pre-moderator; collimator},
}
%0 Journal Article
%T Facility optimization to improve activation rate distributions during IVNAA
%A Ebrahimi Khankook, Atiyeh
%A Rafat Motavali, Laleh
%A Miri Hakimabad, Seyyed Hashem
%J Journal of Radiation Research
%@ 0449-3060
%D 2013