Michael R. Abel scite author profile

The imaging resolution offered by APNEI of target elements such as iron lends itself to potential applications in disease diagnosis and treatment planning (high resolution) as well as to ordnance and contraband detection (low resolution). However, experimental study beyond simulation is required to optimize the layout and electronic configuration of APNEI system components - including realistic shielding and phantom materials - for background signal reduction in order to accurately determine the detection limits and spatial resolution of iron and other elements of interest on a case-by-case basis.

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Improving the sensitivity of fast neutron inelastic scatter analysis to iron using associated particle collimation

Abel

Nie

2019

Nuclear Instruments and Methods in Physics Research Section A:

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Michael R. Abel

Associated particle neutron elemental imaging in vivo: A feasibility study

Monte Carlo simulations of elemental imaging using the neutron‐associated particle technique

Improving the sensitivity of fast neutron inelastic scatter analysis to iron using associated particle collimation

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