High Spatial-Resolution Fast Neutron Detectors for Imaging and Spectrometry

Two detection systems based on optical readout were developed: a. Integrative optical detector A 2nd generation of Time-Resolved Integrative Optical Neutron (TRION) detector was developed. It is based on an integrative optical technique, which permits fast-neutron energy-resolved imaging via time-gated optical readout. This mode of operation allows loss-free operation at very high neutron-flux intensities. The TRION neutron imaging system can be regarded as a stroboscopic photography of neutrons arriving at the detector on a few-ns time scale. As this spectroscopic capability is based on the Time-of-Flight (TOF) technique, it has to be operated in conjunction with a pulsed neutron source, such as an ion accelerator producing 1-2 ns wide beam pulses at MHz repetition rates. TRION is capable of capturing 4 simultaneous TOF frames within a single accelerator pulse and accumulating them over all pulses contained within a finite acquisition time. The detector principle of operation, simulations and experimental results are described. b. Fibrous optical detector A fast neutron imaging detector based on micrometric glass capillaries loaded with high- refractive-index liquid scintillator has been developed. Neutron energy spectrometry is based on event-by-event detection and reconstruction of neutron energy from the measurement of the recoil proton track projection length and the amount of light produced in the track. In addition, the detector can provide fast-neutron imaging with position resolution of tens of microns. The detector principle of operation, simulations and experimental results obtained with a small detector prototype are described. Track-imaging of individual recoil protons from incident neutrons in the range of 2-14 MeV are demonstrated as well as preliminary results of detector spectroscopic capabilities. Keywords: Fast neutron resonance radiography; Time-of-Flight; Fast neutron imaging; Energy-resolved imaging; Neutron spectrometry; Capillary array; Liquid scintillator