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WANG Xiao zhong 1,GU Yi fan 2, ZHANG Jia shan 1, SUI Hong zhi 1,JIA Xiang jun 1, CHEN Yu 2,ZHU Zu qi 1,QI Bu jia 1, LIU Gong fa 3,SHEN Guan ren 1, SUN Han cheng 1 (1 China Institute of Atomic Energy, P. O. Box 275 48, Beijing 102413, China; 2 Institute of High Energy Phy. Investigation of Fluorescence Properties of Powdered Compounds Using Synchrotron X-radiation[J]. Atomic Energy Science and Technology, 2000, 34(S1): 22-22. DOI: 10.7538/yzk.2000.34.S1.0022
Citation: WANG Xiao zhong 1,GU Yi fan 2, ZHANG Jia shan 1, SUI Hong zhi 1,JIA Xiang jun 1, CHEN Yu 2,ZHU Zu qi 1,QI Bu jia 1, LIU Gong fa 3,SHEN Guan ren 1, SUN Han cheng 1 (1 China Institute of Atomic Energy, P. O. Box 275 48, Beijing 102413, China; 2 Institute of High Energy Phy. Investigation of Fluorescence Properties of Powdered Compounds Using Synchrotron X-radiation[J]. Atomic Energy Science and Technology, 2000, 34(S1): 22-22. DOI: 10.7538/yzk.2000.34.S1.0022
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  • An experimental system to use quasi monochromatic X ray beam for measuring the fluorescence properties of powdered compounds is established on beam line 4W1B at the Beijing synchrotron radiation facility (BSRF). The relative light intensity and decay time of fluorescencc for 33 samples of inorganic compounds (or doped compounds) are measured. The results for samples of known scintillators demonstrate the feasibility and sensitivity of the method, while the experimental data obtained for other powdered compounds provide useful information for effective selection of candidate scintillators
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