We are developing a next-generation unattendedsensor that can detect and identify radiation sources while operating on battery power for several weeks. The system achieves smaller size and weight over systems that use NaI:Tl and 3He detectors by using a relatively new scintillator, Cs2LiYCl6:Ce:Ce (CLYC). This material can detect both gamma rays and thermal neutrons, has energy resolution of ~4% full width at half maximum at 662 keV, and allows for particle discrimination by pulse amplitude as well as pulse shape. The overall design features an array of sixteen CLYC detectors, each read out by a photomultiplier tube and custom pulse processing electronics. A field-programmable gate array analyzes the energy spectra using computationally efficient algorithms for anomaly detection.
Revised: June 5, 2013 |
Published: April 1, 2013
Citation
McDonald B.S., M.J. Myjak, W.K. Hensley, and J.E. Smart. 2013.System Modeling and Design Optimization for a Next-Generation Unattended Sensor.IEEE Transactions on Nuclear Science 60, no. 2:1102-1106.PNNL-SA-88668.doi:10.1109/TNS.2012.2236357