四面体 Ge 在非晶态相变材料的 Raman 光谱中的特征。

Signature of tetrahedral Ge in the Raman spectrum of amorphous phase-change materials.

机构信息

Computational Science, Department of Chemistry and Applied Biosciences, ETH Zurich, USI Campus, via Giuseppe Buffi 13, CH-6900 Lugano, Switzerland.

出版信息

Phys Rev Lett. 2010 Feb 26;104(8):085503. doi: 10.1103/PhysRevLett.104.085503. Epub 2010 Feb 24.

DOI:10.1103/PhysRevLett.104.085503

PMID:20366945

Abstract

We computed the Raman spectrum of amorphous GeTe by ab initio simulations and empirical bond polarizability models. The calculated spectrum is in very good agreement with experimental data and contains the signatures of all the peculiar local structures of the amorphous phase revealed by recent ab initio simulations, namely, tetrahedral Ge and defective octahedral sites for a fraction of Ge (mostly 4-coordinated) and for all Te (mostly 3-coordinated) atoms. In particular, the spectrum above 190 cm{-1} is dominated by tetrahedral structures, while the most prominent peaks around 120 and 165 cm{-1} are mainly due to vibrations of atoms in defective octahedral sites. Finally, the peak around 75 cm{-1}, which dominates the spectrum in HV scattering geometry, is mostly due to vibrational modes involving threefold coordinated Te atoms.

摘要

我们通过从头算模拟和经验键极化率模型计算了非晶 GeTe 的拉曼光谱。计算得到的光谱与实验数据非常吻合，并包含了最近从头算模拟揭示的非晶相所有特殊局域结构的特征，即部分（主要为 4 配位）Ge 和所有 Te（主要为 3 配位）原子的四面体 Ge 和有缺陷的八面体配位点。特别是，190 cm{−1}以上的光谱主要由四面体结构主导，而 120 和 165 cm{−1}左右的最显著峰主要归因于有缺陷八面体配位点原子的振动。最后，在 HV 散射几何中主导光谱的约 75 cm{−1}处的峰主要归因于涉及三配位 Te 原子的振动模式。

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四面体 Ge 在非晶态相变材料的 Raman 光谱中的特征。

Signature of tetrahedral Ge in the Raman spectrum of amorphous phase-change materials.

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