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Scintillation mechanisms in Ce3+ doped halide scintillators

✍ Scribed by Dorenbos, Pieter

Publisher
John Wiley and Sons
Year
2005
Tongue
English
Weight
243 KB
Volume
202
Category
Article
ISSN
0031-8965

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✦ Synopsis

Abstract

Last couple of years witnessed the development of various new Ce^3+^ doped halide scintillators (LaCl~3~, LaBr~3~, LuI~3~, Cs~2~LiYCl~6~, Cs~2~LiYBr~6~) that possess excellent gamma ray or thermal neutron detection properties. The scintillation pulse in LaBr~3~:Ce^3+^ is 20 times faster than in the most commonly used scintillator NaI:Tl. This, combined with a more then two times better energy resolution and higher gamma ray stopping power, makes it ideally suited for many different applications. In this work the scintillation properties and mechanisms of Ce^3+^ doped inorganic halide (Cl, Br, I) compounds are reviewed; especially the role of V~k~ centers and self trapped excitons (STEs) in the energy transfer from the ionization track to Ce^3+^ is treated. Aspects of the lifetime and thermal stability of the self trapped exciton, the migration speed of V~k~ centers and STEs, spectral overlap between STE emission and Ce^3+^ absorption, and the influence of the type of anion (Cl, Br, I) are addressed. (Β© 2005 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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