Comparison of amorphous and liquid alloys by photoelectron spectroscopy

Materials Science and Engineering Pub Date : 1988-03-01 DOI:10.1016/0025-5416(88)90334-5

G. Indlekofer, A. Pflugi, P. Oelhafen, H.-J. Güntherodt, P. Häussler, H.-G. Boyen, F. Baumann

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引用次数: 16

Abstract

Photoemission data of liquid AuSn alloys are presented and compared with corresponding measurements on amorphous vapour-quenched films. A fairly close general similarity between the valence bands of the two phases is observed. This result supports earlier studies of the atomic structure of the amorphous films which have been interpreted in terms of a liquid-like structure with a strong tendency to compound formation within the nearest-neighbour arrangements. Distinct deviations of spectra measured on the liquid samples compared with the amorphous phase have been observed; the Au 5d band is shifted to lower binding energies and no density-of-states minimum is observed at E_F. The Au d band exhibits a continuous temperature-dependent shift in the liquid state which has been observed for the first time and which can be extrapolated to −193 °C in the amorphous phase. The origin of this temperature effect is discussed in terms of changes in the electron density and structural alterations in the short-range order at the gold site.

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非晶合金与液态合金的光电子能谱比较

给出了液态Au锡合金的光电发射数据，并与非晶气淬膜的相应测量结果进行了比较。在两相的价带之间观察到相当接近的一般相似性。这一结果支持了早期对非晶态薄膜原子结构的研究，这些研究被解释为一种具有强烈倾向于在最近邻排列中形成化合物的类液体结构。与非晶相相比，液体样品的光谱测量有明显的偏差;Au 5d带转移到较低的结合能，在EF处没有观测到最小的态密度。Au d波段在液相中表现出连续的温度相关位移，这是首次观察到的，并且可以外推到非晶相的- 193℃。从电子密度的变化和金位点的短程结构变化的角度讨论了这种温度效应的起源。

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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