掺镱钛酸镧玻璃的位点选择性荧光和光谱特性

IF 2.1 3区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS
Brian Topper, Alexander Neumann, Stephen K. Wilke, Abdulrahman Alrubkhi, Arash Mafi, Richard Weber
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引用次数: 0

摘要

通过悬浮熔融法制备了掺杂镱的钛酸镧玻璃,以详细描述稀土钛酸镧玻璃宿主的光谱特性。低温荧光光谱显示,在静态和寿命荧光测量中都存在明显的位点选择性,这表明掺杂镱的玻璃不存在团聚现象,而且局部镱环境变化很大。典型的位点选择性表现为随着激发能量的降低,斯塔克流形不断缩小。在 77 K 时,随着激发能量从约 11100 降低到 10750,平均发射频率和荧光寿命开始增加,然后在较低的激发能量下略有下降。在 77 至 420 K 之间进行的随温度变化的荧光寿命测量结果表明,随着温度的升高,荧光寿命会逐渐减小,并能很好地用两级热活化模型来描述。温度相关荧光光谱与室温白光吸收测量相结合,可以确定钛酸镧玻璃中的斯塔克能级,并计算激光截面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Site-selective fluorescence and spectroscopic properties of Yb-doped lanthanum titanate glasses

Ytterbium-doped lanthanum titanate glasses were prepared by levitation melting for the detailed characterization of the Yb 3 + ${\rm Yb}^{3+}$ spectroscopic properties in the rare-earth titanate glass host. Low-temperature fluorescence spectroscopy reveals distinct site-selectivity in both static and lifetime fluorescence measurements suggesting an absence of clustering as well as significant variation of local ytterbium environments. Typical site-selectivity behavior of a shrinking Stark manifold with lower excitation energy is observed. At 77 K, both the mean emission frequency and the fluorescence lifetime initially increase as the excitation energy decreases from about 11100 to 10750 cm 1 ${\rm cm}^{-1}$ and then slightly decrease at lower excitation energy. Temperature-dependent lifetime measurements between 77 and 420 K show a decreasing lifetime with increasing temperature and are well described by a two-level thermal activation model. The temperature-dependent fluorescence spectroscopy coupled with a room temperature white light absorption measurement allow the determination of the Stark energy levels of Yb 3 + ${\rm Yb}^{3+}$ in lanthanum titanate glass as well as the calculation of the laser cross-sections.

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来源期刊
International Journal of Applied Glass Science
International Journal of Applied Glass Science MATERIALS SCIENCE, CERAMICS-
CiteScore
4.50
自引率
9.50%
发文量
73
审稿时长
>12 weeks
期刊介绍: The International Journal of Applied Glass Science (IJAGS) endeavors to be an indispensable source of information dealing with the application of glass science and engineering across the entire materials spectrum. Through the solicitation, editing, and publishing of cutting-edge peer-reviewed papers, IJAGS will be a highly respected and enduring chronicle of major advances in applied glass science throughout this century. It will be of critical value to the work of scientists, engineers, educators, students, and organizations involved in the research, manufacture and utilization of the material glass. Guided by an International Advisory Board, IJAGS will focus on topical issue themes that broadly encompass the advanced description, application, modeling, manufacture, and experimental investigation of glass.
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