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Проявление локальных колебаний в спектрах фотолюминесценыии ZnO : Fe-=SUP=-3+-=/SUP=-

Оптика и спектроскопия Pub Date : 2023-01-01 DOI:10.21883/os.2023.04.55556.52-22
Владимир Иванович Соколов, Н. Б. Груздев, В. В. Меньшенин, А. Н. Киряков, А. Ф. Зацепин, В. А. Важенин, Г. А. Емельченко
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Abstract

In this paper photoluminescense spectra and EPR-signals of ZnO single crystals, doped with manganese and containing (from EPR data) uncontrolled impurity of iron, were investigated. At the temperature of 4.5 K in photoluminescense spectrum the band in energy interval of 1.55-1.8 eV (12493 – 14508 cm-1) was observed. This band contains some intensive lines; these lines are caused by Fe3+ ions (d5-configuration). The first and most intensive line at the energy of 1.79 eV corresponds to irradiative transition 4T1 (G) → 6A1 (S) in Fe3+ ions. The other peaks are electronic-vibrational structure. This structure may be caused by force interaction in deformed Fe3+ - 4O2- - cluster.
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ZnO: Fe =SUP=-3+ /SUP=-显示局部波动
本文研究了掺杂锰和含铁杂质(根据EPR数据)的ZnO单晶的光致发光光谱和EPR信号。在光致发光光谱温度为4.5 K时,观察到能量区间为1.55 ~ 1.8 eV (12493 ~ 14508 cm-1)。这个波段包含一些密集的线;这些线是由Fe3+离子(d5结构)引起的。在能量为1.79 eV时,第一个也是最密集的谱线对应于Fe3+离子中的辐射跃迁4T1 (G)→6A1 (S)。其他峰是电子振动结构。这种结构可能是由变形的Fe3+ - 4O2-团簇中的力相互作用引起的。
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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Оптика и спектроскопия
Оптика и спектроскопия
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