The role of divalent ions in persistent hole-burning mechanism in Y2O3:Pr3+ crystals

T. Okuno, Koichiro Tanaka, T. Suemoto
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Abstract

Persistent spectral hole-burning is extensively studied in many materials. In inorganic materials doped with rare earth ions, we have mainly two mechanisms for hole-burning; one is optical pumping to hyperfine sublevels in rare earth ions, and the other is optically induced rearrangement of local structure around optical centers. In crystals we often observe the hole due to the former mechanism while the hole due to the latter is reported mainly in glasses. Up to now, there seems to be only little study about the correlation between the mechanism of hole-burning and sample-quality or defects. Recently we reported that the character of holes in Y2O3:Pr3+ depends on the quality of samples [1]. In this paper we study the origin of these holes in Y2O3 with a well-controlled manner. For this purpose, we applied hole-burning spectroscopy to various Y2O3:Pr3+(0.2mol%) samples doped with other metallic ions.
二价离子在Y2O3:Pr3+晶体中持续孔洞燃烧机制中的作用
在许多材料中,持续光谱孔燃烧得到了广泛的研究。在掺杂稀土离子的无机材料中,我们主要有两种烧孔机制;一种是光抽运到稀土离子的超细亚能级,另一种是光诱导光中心周围局部结构的重排。在晶体中,我们经常观察到由前一种机制引起的空穴,而由后一种机制引起的空穴主要在玻璃中报道。到目前为止,关于烧孔机理与样品质量或缺陷之间的关系的研究似乎很少。最近我们报道了Y2O3:Pr3+中孔洞的特征取决于样品的质量[1]。本文以可控的方式研究了Y2O3中这些孔洞的成因。为此,我们对掺杂其他金属离子的Y2O3:Pr3+(0.2mol%)样品进行了空穴燃烧光谱分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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