Abstract–Alternatives to 3He for neutron detection have recently become attractive for safeguards applications. Pacific Northwest National Laboratory is developing a neutron multiplicity counter that is based on 6LiF/ZnS. Some of the properties of this material, such as the scintillation light decay time, can be tuned by doping the material with a small amount of nickel. This doping affects other properties of the material, in particular the time dependence of the scintillation light output. To determine whether the nickel-doped or undoped 6LiF/ZnS material would better suit the neutron multiplicity counter system, a series of experiments compared the use of undoped 6LiF/ZnS and a Ni-doped variant using both small samples and full-scale detectors made using the two materials. Both materials were manufactured by Eljen Technology of Sweetwater, Texas. The Ni-doped variant produced less light than the undoped material and had a shorter decay time. For all choices of detection threshold above the electronic noise, the decrease in light output did not affect the detection efficiency of the system.
Revised: December 2, 2016 |
Published: October 6, 2016
Citation
Behling R.S., M. Bliss, C.C. Cowles, R.T. Kouzes, A. Lintereur, S.M. Robinson, and E.R. Siciliano, et al. 2016.Measurement and Comparison of the Light Output of Ni-doped 6LiF/ZnS for Use in Neutron Multiplicity Counting. In Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC 2015), October 31-November 7, San Diego, California. Piscataway, New Jersey:IEEE.PNNL-SA-114810.doi:10.1109/NSSMIC.2015.7581840