Publications Details

Detection of uranium-photofission neutrons with a 4He scintillation detector

Searfus, O.; Meert, C.; Clarke, S.; Pozzi, S.; Jovanovic, I.

The use of photon active interrogation to detect special nuclear material has held significant theoretical promise, as the interrogating source particles, photons, are fundamentally different from one of the main signatures of special nuclear material: neutrons produced in nuclear fission. However, neutrons produced by photonuclear reactions in the accelerator target, collimator, and environment can obscure the fission neutron signal. These (γ,n) neutrons could be discriminated from fission neutrons by their energy spectrum, but common detectors sensitive to the neutron spectrum, like organic scintillators, are typically hampered by the intense photon background characteristic of photon-based active interrogation. In contrast, high-pressure 4He-based scintillation detectors are well -suited to photon active interrogation, as they are similarly sensitive to fast neutrons and can measure their spectrum, but show little response to gamma rays. In this work, a photon active interrogation system utilizing a 4He scintillation detector and a 9 MeV linac-bremsstrahlung x-ray source was experimentally evaluated. The detector was shown to be capable of operating in intense gamma-ray environments and detecting photofission neutrons from 238U when interrogated by this x-ray source. The photofission neutrons show clear spectral separation from (γ,n) neutrons produced in lead, a common shielding material.