Abstract
A novel technique for assay of thermal and fast neutrons in a 6Li-loaded plastic scintillator is presented. Existing capture-gated thermal neutron detection techniques were evaluated with the 6Li-loaded plastic scintillator studied in this work. Using simulations and experimental work, shortcomings in its performance were highlighted. As a result, it was proposed that by separating the combined fast and thermal neutron events from gamma events, using established pulse shape discrimination techniques, the thermal neutron events could then be assayed. Experiments were conducted at the National Physical Laboratory, Teddington, performing neutron assays with seven different neutron fields using the proposed technique. For each field, thermal and fast neutron content was estimated and were shown to corroborate with the seven synthesised fields.
Highlights
A new technique has been investigated for thermal neutron assay with a 6Li-loaded plastic scintillator
Thermal neutron assay has been performed on 7 different neutron fields synthesised from 241AmBe, 241AmLi and 252Cf radionuclide sources
This thermal assay was performed by removing the fast neutron background count within the pulse-height range of detected thermal neutrons
Summary
By detecting two pulses within a given coincidence window, no analysis of the shape or amplitude of the pulses would be required This could lead to a significant simplification of the pulse processing system for a portable application. When considering existing scintillators, 10B-loaded liquid scintillators typically have 5% fractional mass loading of 10B, compared to 0.10.3% of 6Li-loaded plastic scintillators (developments to achieve higher loadings of 6Li are ongoing [13]). It is not known currently if capture gated neutron detection with a 6Li-loaded plastic scintillator boasts any degree of thermal neutron detection efficiency
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