DocumentCode :
792991
Title :
Contamination Studies of LaCl 
:Ce Scintillators
:Ce ScintillatorsAuthor :
Milbrath, Brian D. ; McIntyre, Justin I. ; Runkle, Robert C. ; Smith, L. Eric
Author_Institution :
PNNL
Volume :
53
Issue :
5
fYear :
2006
Firstpage :
3031
Lastpage :
3034
Abstract :
Original lanthanum halide scintillators suffered significantly from internal alpha contamination due to 227Ac. As the effect of this contamination has been substantially reduced, and the crystal sizes have grown towards volumes that are useful for many applications, the effect of the gamma-, beta-, and x-ray-contamination due to 138 La in these materials has risen to the foreground. This paper discusses and quantifies the current status of lanthanum halide contamination. Included are comparisons with other internally-contaminated, commercially-available scintillators and computer simulation results to breakdown contamination versus background contributions. Although the high resolution of the lanthanum halides holds great promise, the internal activity clearly places limits on their superiority
Keywords :
X-ray detection; actinium; alpha-particle detection; beta-ray detection; gamma-ray detection; gamma-ray spectroscopy; lanthanum; radioactive pollution; radioactivity measurement; solid scintillation detectors; 138La; 227Ac; LaCl3:Ce scintillators; X-ray-contamination effect; beta-ray-contamination effect; computer simulation; crystal sizes; gamma spectroscopy; gamma-ray-contamination effect; internal alpha contamination; lanthanum halide scintillators; Application software; Atomic measurements; Computer simulation; Contamination; Crystalline materials; Crystals; Energy resolution; Lanthanum; Pollution measurement; Radioactive decay; Gamma spectroscopy; LaCl; internal contaminants; scintillator;
fLanguage :
English
Journal_Title :
Nuclear Science, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9499
Type :
jour
DOI :
10.1109/TNS.2006.881064
Filename :
1710311
Link To Document :
