Title :
A novel inorganic scintillator: Lu2Si2O7 :Ce3+ (LPS)
Author :
Pauwels, D. ; Le Masson, N. ; Vianna, B. ; Kahn-Harari, A. ; van Loef, E.V.D. ; Dorenbos, P. ; van Eijk, C.W.E.
Author_Institution :
Lab. de Chimie Appliquee de l´´Etat Solide, CNRS, Paris, France
Abstract :
We have characterized the gamma and X-ray scintillation properties of Ce3+ doped Lu2Si2O7, a lutetium pyro-silicate (LPS) material. The rare earth ions are located in an octahedral site with C2 symmetry. The compound exhibits chemical stability, transparency in a wide optical range and congruent melting, which allows growing of single crystals of good optical quality. The melting temperature is about 2000°C, slightly lower than that of Lu2SiO5 (LSO). Two maxima at 305 nm and 355 nm are observed in the optical absorption spectrum. The emission spectrum of Ce3+ in LPS shows a broad band peaking at 380 nm. For nominal Ce3+ atomic concentrations in the range 0.005-0.01, the light yield varies in the range 13,000-23,000 photons/MeV under gamma-ray excitation. The actual cerium concentration inside the crystal still needs to be determined. The scintillation decay time is around 30 ns and, in the first studies, neither a long component nor afterglow was observed
Keywords :
X-ray detection; cerium; gamma-ray detection; impurity absorption spectra; lutetium compounds; melting point; photoluminescence; solid scintillation detectors; 2000 C; 305 nm; 355 nm; 380 nm; Lu2Si2O7:Ce; Lu2Si2O7:Ce3+; X-ray scintillation properties; emission spectrum; gamma scintillation properties; inorganic scintillator; light yield; melting temperature; optical absorption spectrum; scintillation decay time; Atom optics; Chemical compounds; Crystalline materials; Crystals; Electromagnetic wave absorption; Optical materials; Particle beam optics; Stability; Stimulated emission; Temperature;
Conference_Titel :
Nuclear Science Symposium, 1999. Conference Record. 1999 IEEE
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-5696-9
DOI :
10.1109/NSSMIC.1999.842456
