@article{oai:repo.qst.go.jp:00044738,
 author = {Shimura, Naoaki and Kamata, Mitsushi and Gunji, Akihiro and Ishibashi, Hiroyuki and Murayama, Hideo and et.al and 村山 秀雄},
 issue = {5},
 journal = {IEEE Transactions on Nuclear Science},
 month = {Oct},
 note = {Cerium doped Gd2 SiO5 (GSO:Ce) single crystal is used as a scintillator for Positron Emission Tomography (PET). GSO:Ce has a good balance of every scintillation properties, but the only disadvantage is the decreasing light output by coloring caused by a small amount of Ce4+ in the crystal especially at higher concentration of Ce. In order to improve the scintillation performance, we have tried to grow co-doped GSO:Ce single crystal using conventional starting materials with additional impurities, and evaluate the scintillation performance. Zr doping is found to be effective in preventing coloring and in improving light output. Around 200 ppm Zr doped GSO:Ce have shown maximum light output which is about 20% larger than that of conventional GSO:Ce. This improvement can be explained by the fact that the amount of Ce4+ in the crystal might be changed to Ce3+ due to charge compensation caused by dopant Zr4+ in a Gd3+ site thereby decreasing the light absorption in the crystal.},
 pages = {2519--2522},
 title = {Zr Doped GSO:Ce Single Crystals and Their Scintillation Performance},
 volume = {53},
 year = {2006}
}