C. Jewett scite author profile

This paper explores the use of cosmic ray muons to image the contents of shielded containers and detect high-Z special nuclear materials inside them. Cosmic ray muons are a naturally occurring form of radiation, are highly penetrating and exhibit large scattering angles on high Z materials. Specifically, we investigated how radiographic and tomographic techniques can be effective for non-invasive nuclear waste characterization and for nuclear material accountancy of spent fuel inside dry storage containers. We show that the tracking of individual muons, as they enter and exit a structure, can potentially improve the accuracy and availability of data on nuclear waste and the contents of Dry Storage Containers (DSC) used for spent fuel storage at CANDU ® plants. This could be achieved in near real time, with the potential for unattended and remotely monitored operations. We show that the expected sensitivity, in the case of the DSC, exceeds the IAEA detection target for nuclear material accountancy.

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New constraints on theF18(p,α)O15
Kozub
¹
,
Bardayan
²
,
Batchelder
³

et al. 2005
Phys. Rev. C
48
2
43
0
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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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C. Jewett

The DRAGON facility for nuclear astrophysics at TRIUMF-ISAC: design, construction and operation

Erratum:Na21(p,γ)Mg
Bishop¹,
Azuma²,
Buchmann³
et al. 2003
Phys. Rev. Lett.
36
7
53
1
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Nuclear waste imaging and spent fuel verification by muon tomography

New constraints on theF18(p,α)O15
Kozub
¹
,
Bardayan
²
,
Batchelder
³

et al. 2005
Phys. Rev. C
48
2
43
0
View full text Add to dashboard Cite

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

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About

C. Jewett

The DRAGON facility for nuclear astrophysics at TRIUMF-ISAC: design, construction and operation

Erratum:Na21(p,γ)MgBishop1, Azuma2, Buchmann3 et al. 2003Phys. Rev. Lett.367531View full textAdd to dashboardCite

Nuclear waste imaging and spent fuel verification by muon tomography

New constraints on theF18(p,α)O15Kozub1, Bardayan2, Batchelder3 et al. 2005Phys. Rev. C482430View full textAdd to dashboardCite

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

Contact Info

Product

Resources

About

Erratum:Na21(p,γ)Mg
Bishop¹,
Azuma²,
Buchmann³
et al. 2003
Phys. Rev. Lett.
36
7
53
1
View full text Add to dashboard Cite

New constraints on theF18(p,α)O15
Kozub
¹
,
Bardayan
²
,
Batchelder
³

et al. 2005
Phys. Rev. C
48
2
43
0
View full text Add to dashboard Cite