Open AccessInverse Collimator-Based Radiation Imaging Detector System
Author(s) -
Anuradha Das,
B. Sur,
Shijing Yue,
G. Jonkmans
Publication year - 2012
Publication title -
aecl nuclear review
Language(s) - English
Resource type - Journals
eISSN - 1929-6371
pISSN - 1929-8056
DOI - 10.12943/anr.2012.00009
Subject(s) - collimator , collimated light , detector , radiation , electromagnetic shielding , point source , nuclear decommissioning , optics , particle detector , pencil (optics) , physics , computer science , medical physics , laser , nuclear physics , quantum mechanics
A radiation imaging system has been developed using the concept of inverse collimation, where a narrow shielding pencil is used instead of a classical collimator. This imaging detector is smaller, lighter and less expensive than a traditionally collimated detector, and can produce a spherical raster image of radiation sources in its surroundings. A prototype was developed at Atomic Energy of Canada Limited – Chalk River Laboratories, and the concept has been successfully proven in experiments using a point source as well as real sources in a high ambient field area. Such a radiation imaging system is effective in locating radiation sources in areas where accessibility is low and risk of radiological contamination is high, with applications in decontamination and decommissioning activities, nuclear material processing labs, etc.
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