Quantum-size Effects In The Electronic Structure Of Low-dimensional Metallic Systems

A.M. Shikin; A. Varykhalov; O. Rader; V.K. Adamchuk; W. Gudat

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Quantum-size Effects In The Electronic Structure Of Low-dimensional Metallic Systems

机译：低维金属系统电子结构中的量子尺寸效应

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By angle-resolved photoemission the electronic structure of quantum films of Mg, Ag, and Au has been compared on W(110) and Mo(110) substrates which are structurally and electronically very similar but differ in atomic number. In all cases, substrate-induced states with characteristic dispersions are observed in the region of a bulk band gap of the substrate. Based on the comparison between Mo and W, we can exclude that previously observed Mg states are spin-orbit split but observe a spin-orbit splitting in Ag and Au monolayers. This splitting is mainly caused by the substrate because it does not differ much between Ag and Au overlayers despite the large difference in atomic number.

机译：通过角度分辨光发射，已比较了W（110）和Mo（110）衬底上Mg，Ag和Au量子膜的电子结构，这些衬底在结构和电子上非常相似，但原子序数却不同。在所有情况下，在衬底的体带隙区域中观察到具有特征性色散的衬底诱导状态。根据Mo和W之间的比较，我们可以排除先前观察到的Mg状态是自旋轨道分裂，但观察到Ag和Au单层中的自旋轨道分裂。这种分裂主要是由衬底引起的，因为尽管原子数相差很大，但在Ag和Au覆盖层之间其差别并不大。

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来源
《Applied Physics A: Materials Science & Processing》 |2009年第3期|449-453|共5页
作者
A.M. Shikin; A. Varykhalov; O. Rader; V.K. Adamchuk; W. Gudat;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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adsorbed layers and thin films; electron states at surfaces and interfaces; quantum wells; spin-orbit coupling; zeeman and stark splitting; jahn-teller effect;

机译：吸附层和薄膜;表面和界面的电子态;量子阱;自旋轨道耦合;塞曼和斯塔克分裂;泰勒效应;

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Quantum-size Effects In The Electronic Structure Of Low-dimensional Metallic Systems

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