Angular resolution study of a combined gamma-neutron coded aperture imager for standoff detection

Birsen Ayaz-Maierhafer, Jason P. Hayward, Klaus P. Ziock, Matthew A. Blackston, Lorenzo Fabris

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

Nuclear threat source observables at standoff distances of tens of meters from mCi class sources include both gamma-rays and neutrons. This work uses simulations to investigate the effects of the angular resolution of a mobile gamma-ray and neutron coded aperture imaging system upon orphan source detection significance and specificity. The design requires maintaining high sensitivity and specificity while keeping the system size as compact as possible to reduce weight, footprint, and cost. A mixture of inorganic and organic scintillators was considered in the detector plane for high sensitivity to both gamma-rays and fast neutrons. For gamma-rays (100 to 2500 keV) and fission spectrum neutrons, angular resolutions of 1-9° and radiation angles of incidence appropriate for mobile search were evaluated. Detection significance for gamma-rays considers those events that contribute to the photopeak of the image pixel corresponding the orphan source location. For detection of fission spectrum neutrons, energy depositions above a set pulse shape discrimination threshold were tallied. The results show that the expected detection significance for the system at an angular resolution of 1°is significantly lower compared to its detection significance an angular resolution of ∼3-4°. An angular resolution of ∼3-4°is recommended both for better detection significance and improved false alarm rate, considering that finer angular resolution does not result in improved background rejection when the coded aperture method is used. Instead, over-pixelating the search space may result in an unacceptably high false alarm rate.

Funding

This work has been supported by the US Department of Homeland Security , Domestic Nuclear Detection Office, under competitively awarded IAA HSHQDC-10-X-00662. This support does not constitute an express or implied endorsement on the part of the Government.

FundersFunder number
U.S. Department of Homeland Security
Domestic Nuclear Detection OfficeIAA HSHQDC-10-X-00662

    Keywords

    • Coded mask
    • Gamma and neutron imager
    • Nuclear imaging
    • Orphan source search

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