Title :
Large size LYSO crystals for future high energy physics experiments
Author :
Chen, Jianming ; Zhang, Liyuan ; Zhu, Ren-Yuan
Author_Institution :
California Inst. of Technol., Pasadena, CA
Abstract :
Because of their high stopping power and fast bright scintillation, cerium doped silicate based heavy crystal scintillators, such as GSO, LSO, and LYSO, have been developed for medical instruments. Their applications in high energy and nuclear physics, however, are limited by lacking high quality crystals in sufficiently large size. The optical and scintillation properties, including the transmittance, emission and excitation spectra and the light output, decay kinetics and light response uniformity, as well as their degradation under gamma-ray irradiation were measured for two long (2.5times2.5times20 cm) LYSO samples from CPI and Saint-Gobain, and were compared to a BGO sample of the same size from SIC. Possible applications for crystal calorimetry in future high energy and nuclear physics experiments are discussed
Keywords :
energy loss of particles; gamma-ray effects; phosphorescence; solid scintillation detectors; BGO sample; CPI; GSO; LSO; LYSO crystals; SIC; Saint-Gobain; cerium doped silicate based heavy crystal scintillators; crystal calorimetry; emission spectra; excitation spectra; fast bright scintillation; gamma-ray irradiation; high energy physics experiments; high stopping power; lutetium oxyorthosilicate; lutetium yttrium oxyorthosilicate; medical instruments; nuclear physics experiments; optical properties; phosphorescence; radiation damage; scintillation properties; transmittance spectra; Biomedical optical imaging; Cerium; Crystals; Degradation; Instruments; Kinetic theory; Nuclear physics; Silicon carbide; Size measurement; Stimulated emission; Crystal; emission; light output; lutetium oxyorthosilicate; lutetium yttrium oxyorthosilicate; radiation damage; scintillator; transmission;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2005.862923
