The investigation of atomic motions in crystalline, amorphous and liquid selenium, and in crystalline and liquid tellurium by neutron spectroscopy

A. Axmann, W. Gissler, A. Kollmar, T. Springer
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引用次数: 46

Abstract

The energy spectra of monochromatic neutrons scattered on selenium and telllurium have been investigated by means of a rotating crystal spectrometer. In polycrystalline selenium the highest spectral line can be identified as an intrachain bond stretching mode. Transforming selenium from its crystalline to its amorphous and liquid state, the shift of the line energy is only a few percent. The other lines in the spectra (from bond shearing and torsional modes of the chains) are influenced more strongly. For tellurium, on the other hand, the spectral lines of the solid disappear completely in the liquid phase. The experimental results are compared with the results of optical spectroscopy. Furthermore, the diffusive motion of the atoms has been studied by quasi-elastic neutron scattering for liquid selenium containing various admixtures of iodine (0–6 %), which change the average chain length of the polymeric melt, and for liquid tellurium. For Se, one obtains an effective diffusion constant D which describes the motion of small chain segments over atomistic distances. D is of the order of 10–5 cm2/s. Its activation energy was about 5 Kcal/mol.
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用中子光谱学研究结晶、非晶和液态硒以及结晶和液态碲的原子运动
用旋转晶体谱仪研究了单色中子散射在硒和碲上的能谱。在多晶硒中,最高谱线可以识别为链内键拉伸模式。将硒从晶态转变为非晶态和液态,线能量的变化只有几个百分点。光谱中的其他谱线(来自链的键剪切和扭转模式)受到更强烈的影响。另一方面,对于碲,固体的谱线在液相中完全消失。实验结果与光谱学结果进行了比较。此外,用准弹性中子散射方法研究了含碘(0 ~ 6%)的液体硒和液态碲的原子扩散运动。对于Se,我们得到了一个有效的扩散常数D,它描述了小链段在原子距离上的运动。D的数量级是10 - 5cm2 /s。其活化能约为5 Kcal/mol。
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