作　　者： ;

机构地区： 井冈山大学

出　　处： 《发光学报》 2020年第4期371-378,共8页

摘　　要： 采用传统高温熔融法合成了玻璃组成为B2O3-GeO2-15GdF3-(40-x)Gd2O3-xEu2O3(0≤x≤10)的Eu^3+激活氟氧硼酸锗酸盐闪烁玻璃。在硼锗酸盐玻璃基质中,Gd2O3和GdF3稀土试剂的总含量高达55%,从而确保其密度高于6.4 g/cm^3。闪烁玻璃的光学性能通过光学透过光谱、光致发光光谱、X射线激发发射(XEL)光谱和荧光衰减曲线来表征。玻璃中Gd^3+→Eu^3+离子的能量传递通过激发光谱、发射光谱和Gd^3+-Eu^3+离子间距得到证明,同时也确定了在紫外线和X射线激发下Eu^3+激活氟氧硼酸锗酸盐闪烁玻璃的最佳浓度。Judd-Ofelt理论分析了玻璃中Eu―O键的共价性随Eu^3+掺杂浓度增加而显著增强。Eu^3+激活氟氧硼酸锗酸盐闪烁玻璃在80~470 K温度范围内荧光衰减曲线和发射光谱的温度依赖关系最终证实了其具有较好的发光稳定性。 Dense Eu^3+-activated oxyfluoride borogermanate scintillating glasses with the nominal composition of B2O3-GeO2-15GdF3-(40-x)Gd2O3-xEu2O3(0≤x≤10)were synthesized by melt-quenching method.The total rare-earth content of Gd2O3 and GdF3 agents is as high as 55%in borogermanate glass matrix,which ensures the glass density exceeding 6.4 g/cm^3.Their optical properties were characterized by transmittance,photoluminescence spectra,X-ray excited luminescence(XEL)spectra and luminescence decay curves.The energy transfer of Gd^3+→Eu^3+ions were testified by excitation,emission spectra and the mean distances of Gd^3+-Eu^3+ion pairs.The optimal concentration of Eu^3+-activated borogermanate scintillating glass under both ultraviolet and X-ray excitation was also determined.It was found that the covalency property of Eu―O bond increases remarkably with the increased Eu^3+concentration,which was confirmed by the Judd-Ofelt analysis.Both the temperature-dependent luminescence decay curves and emission spectra of Eu^3+ions in the temperature regions of 80-470 K finally support the stability of luminescent property of the present Eu^3+-activated oxyfluoride borogermanate glasses.

关 键 词： 激活氟氧硼酸锗酸盐闪烁玻璃 光致发光 射线激发发射 理论

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