Title :
Radiation discrimination in LiBaF3 scintillator using digital signal processing techniques
Author :
Aalseth, Craig E. ; Bowyer, Sonya M. ; Reeder, Paul L.
Author_Institution :
Pacific Northwest Lab., Richland, WA, USA
Abstract :
Pulse analysis techniques with the scintillator LiBaF3:Ce allow very clean separation of densely ionizing radiation (protons, deuterons, tritons, alphas, etc.) from less densely ionizing radiation (electrons). Consequently, pulse height spectra for each type of radiation can be obtained simultaneously. The pulse discrimination is based on the presence or absence of sub-nanosecond core-valence luminescence and in crystals doped with Ce+3 the presence or absence of Ce luminescence having a -35 ns lifetime. We are developing a pulse discrimination technique based on digital signal processing (DSP) using a CAMAC based module from XIA, Inc. Discrimination between electrons (gammas) and the light charged particles is based on the ratio of signal amplitude in the first 50 ns to signal amplitude at a longer time interval. We are evaluating more complicated algorithms to determine whether discrimination between hydrogen isotopes and alpha particles can be achieved. These techniques may allow determination of pulse height spectra for thermal neutron capture events, fast neutron capture events, fast-neutron-induced nuclear reactions, alpha events from Ra impurities in the scintillator, and gamma events simultaneously using a single scintillator.
Keywords :
CAMAC; digital signal processing chips; discriminators; gamma-ray detection; lithium compounds; neutron detection; nuclear electronics; photomultipliers; pulse height analysers; solid scintillation detectors; timing circuits; 50 ns; CAMAC based module; LiBaF3:Ce3+; PMT; alpha count rates; alpha events; crystal doping; crystal impurities; densely ionizing radiation; digital signal processing techniques; fast neutron capture events; fast-neutron-induced nuclear reactions; gamma events; light charged particles; luminescence; neutron count rates; pulse analysis techniques; pulse discrimination; pulse height spectra; radiation discrimination; scintillator; thermal neutron capture events; CAMAC; Crystals; Digital signal processing; Electrons; Hydrogen; Ionizing radiation; Luminescence; Neutrons; Protons; Signal processing algorithms;
Conference_Titel :
Nuclear Science Symposium Conference Record, 2001 IEEE
Print_ISBN :
0-7803-7324-3
DOI :
10.1109/NSSMIC.2001.1008507
