Scintillating-glass-fiber neutron sensors, their application and performance for plutonium detection and monitoring

Most neutron detection sensors presently employ He-3 gas-filled detectors. Despite their excellent performance and widespread use, there are significa nt limitations to this technology. A significant alternative neutron sensor utilizing neutron-active material incorporated into a glass scintillator i s presented that offers novel commercial sensors not possible or practical with gas tube technology. The scintillating optical fiber permits sensors w ith a multitude of sizes ranging from devices of a single fiber of 150 mum to sensors with tens of thousands of fibers with areas as large as 5 m(2) d epending on the neutron flux to be measured. A second significant advantage is the use of high-speed electronics that allow a greater dynamic range, n ot possible with gas detectors. These sensors are flexible, conformable and less sensitive to vibration that optimizes the source-to-detector geometry and provides robust performance in field applications. The glass-fibers ar e sensitive to both gamma-rays and neutrons. However, the coincidence elect ronics are optimized for neutron to gamma-ray discrimination allowing very sensitive measurements with a low false-alarm rate. Applications include SN M surveillance, material control and accountability (MC&A), safeguard inspe ctions, Pu health physics/bioassay and environmental characterization.