Transmission and signal loss in mask designs for a dual neutron and gamma imager applied to mobile standoff detection

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

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

In order to design a next-generation, dual neutron and gamma imager for mobile standoff detection which uses coded aperture imaging as its primary detection modality, the following design parameters have been investigated for gamma and neutron radiation incident upon a hybrid, coded mask: (1) transmission through mask elements for various mask materials and thicknesses; and (2) signal attenuation in the mask versus angle of incidence. Each of these parameters directly affects detection significance, as quantified by the signal-to-noise ratio. The hybrid mask consists of two or three layers: organic material for fast neutron attenuation and scattering, Cd for slow neutron absorption (if applied), and one of three of the following photon or photon and slow neutron attenuating materials - Linotype alloy, CLYC, or CZT. In the MCNP model, a line source of gamma rays (100-2500 keV), fast neutrons (1000-10,000 keV) or thermal neutrons was positioned above the hybrid mask. The radiation penetrating the mask was simply tallied at the surface of an ideal detector, which was located below the surface of the last mask layer. The transmission was calculated as the ratio of the particles transmitted through the fixed aperture to the particles passing through the closed mask. In order to determine the performance of the mask considering relative motion between the source and detector, simulations were used to calculate the signal attenuation for incident radiation angles of 0-50°. The results showed that a hybrid mask can be designed to sufficiently reduce both transmission through the mask and signal loss at large angles of incidence, considering both gamma ray and fast neutron radiations. With properly selected material thicknesses, the signal loss of a hybrid mask, which is necessarily thicker than the mask required for either single mode imaging, is not a setback to the system's detection significance.

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 expressed 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

    • CLYC
    • CZT
    • Coded aperture imaging
    • Detection significance
    • Gamma ray imaging
    • Neutron imaging

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