Exploring the energy transfer processes in Lu2(1-x)Y2xSiO5:Ce crystals 被引量：3

Exploring the energy transfer processes in Lu_(2(1-x))Y_(2x)SiO_5:Ce crystals

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摘要 A systematical exploration of energy transfer processes in Lu2（1-x）Y2xSiO5：Ce（LYSO） crystals under vacuum ultraviolet-ultraviolet（VUV-UV） excitation was implemented. The relationship between energy transfer and scintillation properties was established. It is revealed that there are mainly three energy transfer types in the crystal i.e. host → Ce1/Ce2/STEs, Ce1 →Ce2 and STEs → Ce1/Ce2. The influence of Y content of the LYSO crystals on the energy transfer efficiency of the above processes was carefully analyzed. Besides, we find a special component of the crystal i.e. Y content = 45 at% at which the energy resolution and light output of the crystal perform the worst. A systematical exploration of energy transfer processes in Lu2（1-x）Y2xSiO5：Ce（LYSO） crystals under vacuum ultraviolet-ultraviolet（VUV-UV） excitation was implemented. The relationship between energy transfer and scintillation properties was established. It is revealed that there are mainly three energy transfer types in the crystal i.e. host → Ce1/Ce2/STEs, Ce1 →Ce2 and STEs → Ce1/Ce2. The influence of Y content of the LYSO crystals on the energy transfer efficiency of the above processes was carefully analyzed. Besides, we find a special component of the crystal i.e. Y content = 45 at% at which the energy resolution and light output of the crystal perform the worst.

作者 Tiantian Wang Dongzhou Ding Xiaopu Chen Wei Hou Junjie Shi

机构地区 Shanghai Institute of Ceramics University of Chinese Academy of Sciences R&D Center

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2018年第7期685-689,共5页 稀土学报（英文版）

基金 supported by National Natural Science Foundation of China(11475241) Science and Technology Commission of Shanghai Municipality(15DZ2251200)

关键词 Lu2（1-x）Y2xSiO5 CE Energy transfer Ce1 Ce2 Self-trapped excitons Rare earths Lu2（1-x）Y2xSiO5 Ce Energy transfer Ce1 Ce2 Self-trapped excitons Rare earths

分类号 O734 [理学—晶体学]

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