LiF和NaF晶体的红外吸收光谱取决于晶体生长条件和辐射处理

Luminescence and Laser Physics: XVII International Conference on Luminescence and Laser Physics – LLPh 2019 Pub Date : 2021-07-27 DOI:10.1063/5.0061996

L. Bryukvina, D. S. Glazunov

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引用次数: 1

摘要

本工作致力于研究γ辐照LiF和NaF晶体中强氢键OHF分子配合物的产生效率和多样性，这取决于镁羟基杂质配合物的类型。红外(IR)光谱研究表明，Mg2+OH¯OH¯Vc¯配合物的浓度随着镁加入量的增加而增加。随着Mg2+ OH¯OH¯Vc¯配合物浓度的增加，未辐照晶体中3550 ~ 3700 cm-1区域的红外波段强度增加。结果表明，具有强氢键的配合物在1600-2400 cm−1范围内的辐射诱导红外波段向低频偏移。强氢键OHF配合物在1600 ~ 2400 cm−1区域的辐射诱导红外波段在晶体中以“自由”OH¯离子形式存在时向高频偏移，其吸收波段为νmax = 3730 cm−1。这种变化在不同的辐照剂量下也会发生。

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Infrared absorption spectra of LiF and NaF crystals depending on the conditions of crystal growth and radiation treatment

This work is devoted to studies of the efficiency of creation and diversity of molecular complexes with the strong hydrogen bond OHF in γ-irradiated LiF and NaF crystals depending on the type of magnesium-hydroxyl impurity complexes. Infrared (IR) spectroscopy studies have shown that the concentration of Mg2+OH¯OH¯Vc¯ complexes increases as the percentage of magnesium added to the melt increases. Increase in the concentration of Mg2+ OH¯OH¯Vc ¯complexes leads to increase in the intensity of the IR bands in the region of 3550–3700 cm–1 in unirradiated crystals. As a result, the radiation-induced IR bands of complexes with a strong hydrogen bond in the range of 1600–2400 cm−1 are shifted towards lower frequencies. The radiation-induced IR bands of complexes with strong hydrogen bond OHF in the region of 1600–2400 cm−1 are shifted towards high frequencies in the presence of a hydroxyl impurity in the crystal in the form of “free” OH¯ ions with the absorption band at νmax = 3730 cm-1. Such shifts also occur at different irradiation doses.

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Luminescence and Laser Physics: XVII International Conference on Luminescence and Laser Physics – LLPh 2019

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