DocumentCode
3630557
Title
Energy resolution of calcium co-doped LSO:Ce scintillators
Author
Agnieszka Syntfeld-Kazuch;Marek Moszynski;Lukasz Swiderski;Tomasz Szczesniak;Antoni Nassalski;Charles L. Melcher;Merry A. Spurrier
Author_Institution
Andrzej So?tan Institute for Nuclear Studies, PL-05-400 Otwock, ?wierk, Poland
fYear
2008
Firstpage
2744
Lastpage
2750
Abstract
Co-doping Lu2 SiO5 :Ce (LSO:Ce) with Ca divalent cations changes the scintillation properties of the crystal. In the present work an influence of Ca2+ co-doping on energy resolution, light output and non-proportionality was investigated for samples with 0, 0.1, 0.2, 0.3, 0.4 atomic percent Ca with respect to Lu. A substantial improvement of energy resolution in the co-doped crystals was found and higher light output by about 10% was observed. The best energy resolution of 7.35±0.15% was measured for LSO with 0.2% Ca. Contrary to our expectations, the change in the measured energy resolution of Ca2+ co-doped LSO samples is not reflected in the non-proportional characteristic of the studied crystals as the non-proportionality curves are independent of Ca concentration. Possible explanations of the underlying mechanism of improving the energy resolution include afterglow suppression via Ca co-doping. Earlier studies showed that calcium co-doping significantly reduces the trap population, hence the decay time of LSO is shortened and the afterglow is substantially quenched. In the current work, the integrated afterglow intensities as well as the afterglow effective decay times correlate with the concentration of Ca2+. Since the afterglow was measured about 30 ms after the crystal was irradiated by a strong X-ray source, the integral intensity does not include the faster components of afterglow. Hence, the correlation between afterglow intensity and energy resolution treated in this work is very preliminary.
Keywords
"Energy resolution","Calcium","Energy measurement","Photonic crystals","Atomic measurements","Temperature measurement","Nuclear and plasma sciences","Size control","Lighting control","Impurities"
Publisher
ieee
Conference_Titel
Nuclear Science Symposium Conference Record, 2008. NSS ´08. IEEE
ISSN
1082-3654
Print_ISBN
978-1-4244-2714-7
Type
conf
DOI
10.1109/NSSMIC.2008.4774941
Filename
4774941
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