测量了30%(原子分数)Er:YSGG晶体的晶胞参数:a=b=c=(1.24640±0.00065)nm,α=β=γ=90°.用Rietveld方法对X射线衍射谱进行了精修,给出了处于96h位置的O原子分数坐标(x, y, z)=(-0.031433±0.000780、0.058253±0.000792、0.155358±0.000776),并计算了氧配位多面体中的阴阳离子间距和夹角,结果表明Er3+/Y3+处于畸变十二面体的中心.另外还研究了该晶体在室温下的吸收光谱和荧光光谱的性质.在200~1700nm波段内,Er:YSGG晶体吸收谱带主要为Er3+离子的特征吸收,计算了Er3+在966、790nm处的吸收截面;测量了966、790和488nm为激发波长时的室温发射光谱, 当激发波长为966nm时发射谱带强度较大.另外,以1534nm为监测波长得到室温下的激发光谱,研究结果表明Er:YSGG激光晶体适合于InGaAs二极管激光器的泵浦.
参考文献
| [1] | Dinerman B J;Moulton P F.Up-conversion Luminescence of Er3+ Yttrium[A].Gallium,1992:310-311. |
| [2] | Chen XS;Collins J;DiBartolo B;Bowlby B;Dinerman B;Weyburne D;SCHWATS ELECTROOPT CONCORD MA 01742.;ROME LAB HANSCOM AFB MA 01731. .Up-conversion luminescence of Er3+-doped yttrium, scandium, gallium garnet at different temperatures[J].Journal of Luminescence: An Interdisciplinary Journal of Research on Excited State Processes in Condensed Matter,1997(0):168-170. |
| [3] | Chen X S;Nguyen T;Luu Q et al.[J].Journal of Luminescence,1999,83-84:471-475. |
| [4] | 苏静,张庆礼,殷绍唐.YSGG系列晶体及激光器的研究进展[J].人工晶体学报,2005(04):709-713,719. |
| [5] | Kuck S;Petermann K;Pohlmann U et al.[J].Physical Review B,1995,51(24):17323-17331. |
| [6] | Zharikov E V;ll'ichev N N;Kalitin S P et al.[J].Soviet Journal of Quantum Electronics,1986,16(05):635-639. |
| [7] | Moulton P.F.;Manni J.G. .Spectroscopic and laser characteristics of Er,Cr:YSGG[J].IEEE Journal of Quantum Electronics: A Publication of the IEEE Quantum Electronics and Applications Society,1988(6):960-973. |
| [8] | Gruber J B;Quagliano J R;Reid M F et al.[J].Physical Review B,1993,48(21):15561-15573. |
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