玻璃状二氧化硅中的原子振动

R. J. Bell, P. Dean
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引用次数: 399

摘要

计算了石英玻璃的振动频谱和振型。它们是根据基于随机网络理论的物理模型中的原子排列计算出来的。计算光谱中的波段位置与玻璃实验红外光谱和拉曼光谱的观测特征吻合较好。对正常模式的详细分析表明,在1050、750和400 cm-1处的波段分别与氧原子的键拉伸、弯曲和摇摆运动有关。总的来说,玻璃中的原子振动在空间上的扩展比完美晶体中普遍存在的平面波模式要小。在高频和频带边缘附近,空间局域化倾向最大。如果结构中存在非桥接氧原子,则频谱显示出非常强烈的局部化的额外波段,与非桥接原子的键拉伸振动有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Atomic vibrations in vitreous silica
Frequency spectra and normal modes of vibration have been computed for vitreous silica. They have been calculated from atomic arrangements in physical models based on the random network theory. The positions of bands in the computed spectra agree well with observed features in the experimental infra-red and Raman spectra of the glass. Detailed analysis of the normal modes indicates that the bands at 1050, 750 and 400 cm–1 are associated with bond-stretching, bending and rocking motions, respectively, of the oxygen atoms. Atomic vibrations in the glass are, on the whole, less extended in space than the plane wave-like modes which prevail in perfect crystals. The spatial localization tends to be greatest at high frequencies and near band edges. If non-bridging oxygen atoms are present in the structure, the frequenncy spectrum exhibits an additional band of very intense localization, associated with bond-stretching vibrations of the non-bridging atoms.
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