K. Boniface scite author profile

K. Boniface

3Publications

52Citation Statements Received

27Citation Statements Given

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Affiliations

Canadian Nuclear Laboratories, Atomic Energy (Canada)

Publications

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A plastic scintillator-based muon tomography system with an integrated muon spectrometer

Anghel

Armitage

Baig

et al. 2015

Nuclear Instruments and Methods in Physics Research Section A:

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a b s t r a c tA muon scattering tomography system which uses extruded plastic scintillator bars for muon tracking and a dedicated muon spectrometer that measures scattering through steel slabs has been constructed and successfully tested. The atmospheric muon detection efficiency is measured to be 97% per plane on average and the average intrinsic hit resolution is 2.5 mm. In addition to creating a variety of threedimensional images of objects of interest, a quantitative study has been carried out to investigate the impact of including muon momentum measurements when attempting to detect high-density, high-Z material. As expected, the addition of momentum information improves the performance of the system. For a fixed data-taking time of 60 s and a fixed false positive fraction, the probability to detect a target increases when momentum information is used. This is the first demonstration of the use of muon momentum information from dedicated spectrometer measurements in muon scattering tomography.

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One-Sided Muon Tomography—a Portable Method for Imaging Critical Infrastructure With a Single Muon Detector

Erlandson¹,

Boniface²,

Anghel³

et al. 2016

CNL Nuclear Review

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High-energy muons generated from cosmic-ray particle showers have been shown to exhibit properties ideal for imaging the interior of large structures. This paper explores the possibility of using a single portable muon detector in conjunction with image reconstruction methods used in nuclear medicine to reconstruct a 3D image of the interior of critical infrastructure such as the Zero Energy Deuterium (ZED-2) research reactor at Canadian Nuclear Laboratories' Chalk River site. The ZED-2 reactor core and muon detector arrangement are modeled in GEANT4 and Monte Carlo measurements of the resultant muon throughput and angular distribution at several angles of rotation around the reactor are generated. Statistical analysis is then performed on these measurements based on the well-defined flux and angular distribution of muons expected near the surface of the earth. The results of this analysis are shown to produce reconstructed images of the spatial distribution of nuclear fuel within the core for multiple fuel configurations. This one-sided tomography concept is a possible candidate for examining the internal structure of larger critical facilities, for example the Fukushima Daiichi power plant where the integrity of the containment infrastructure and the location of the reactor fuel is unknown.

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One-sided muon tomography - A portable method for imaging critical infrastructure with a single muon detector

Boniface¹,

Anghel²,

Erlandson³

et al. 2016

Preprint

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K. Boniface

A plastic scintillator-based muon tomography system with an integrated muon spectrometer

One-Sided Muon Tomography—a Portable Method for Imaging Critical Infrastructure With a Single Muon Detector

One-sided muon tomography - A portable method for imaging critical infrastructure with a single muon detector

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