DocumentCode :
1447866
Title :
Crystal Growth of Ce Doped 
Single Crystal by the Micro-Puling-Down Method and Their Scintillation Properties
Author :
Kamada, Kei ; Yanagida, Takayuki ; Pejchal, Jan ; Nikl, Martin ; Endo, Takanori ; Tsutumi, Kousuke ; Fujimoto, Yutaka ; Fukabori, Akihiro ; Yoshikawa, Akira
Author_Institution :
Mater. Res. Lab., Furukawa Co., Ltd., Tsukuba, Japan
Volume :
59
Issue :
5
fYear :
2012
Firstpage :
2116
Lastpage :
2119
Abstract :
Ce:(Lu,Y)3(Ga,Al)5 O12 single crystals were grown by the μ -PD method with RF heating system. In these crystals, Ce3+ 4f-5d emission is observed within 500-530 nm wavelength. Emission peak shifts to shorter wavelength and the decay accelerates with increasing Ga concentration. In the case of Ce:Lu2 Y1 (Ga,Al)5 O12 series,the Ce0.2% Lu2 Y1Ga3Al2 O12 crystal showed the highest emission intensity. In order to determine light yield, the energy spectra were measured under 662 keV ã-ray excitation (137 Cs source) and detection by an APD S8664-55(Hamamatsu). The light yield was calibrated from Fe55 direct irradiation peak to APD. The light yield of Ce0.2%: Lu2 Y1 Ga3 Al2 O12 sample was of about 30,000 photon/MeV. Dominant scintillation decay time was of about 50 ns.
Keywords :
cerium; crystal growth; crystal structure; gamma-ray effects; lutetium compounds; photoluminescence; radiofrequency heating; scintillation; yttrium compounds; μ-PD method; (LuY)3(GaAl)5O12:Ce; 4f-5d emission intensity; Ce doped single crystal growth; Ga concentration; RF heating system; ã-ray excitation; direct irradiation peak; emission peak shifts; energy spectra; light yield; micropuling-down method; scintillation decay time; wavelength 500 nm to 530 nm; Crystals; Detectors; Gallium; Garnets; Luminescence; Photonics; Crystals; luminescence; solid scintillation detectors;
fLanguage :
English
Journal_Title :
Nuclear Science, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9499
Type :
jour
DOI :
10.1109/TNS.2012.2184141
Filename :
6151861
Link To Document :
