ARPES and STS investigation of noble metal Shockley states: Confinement in vicinal Au(111) surfaces and self-organized nanostructures

C. Didiot; Y. Fagot-Revurat; S. Pons; B. Kierren; D. Malterre

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ARPES and STS investigation of noble metal Shockley states: Confinement in vicinal Au(111) surfaces and self-organized nanostructures

机译：贵金属肖克利状态的ARPES和STS研究：局限在临近的Au（111）表面和自组织纳米结构中

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Spectroscopic effects associated with the superperiodic surface structure have been observed in Au(111) vicinal surfaces and nano-structured systems. In the vicinal Au(232321) surface, high resolution angle resolved photoemission spectroscopy shows the opening of several gaps in the surface band structure, whereas scanning tunneling spectroscopy reveals the energy dependence of the electronic density. These combined spectroscopic data allow to determine the reconstruction potential by deducing their first Fourier components. We also demonstrate that due to the peculiar growth on this Au vicinal surface, we can obtain a self-assembled superlattice of triangular Ag islands. The high ordering of the nanostructures leads to homogenous electronic properties.

机译：与超周期表面结构相关的光谱效应已在Au（111）邻近表面和纳米结构系统中观察到。在附近的Au（232321）表面，高分辨率角度分辨光发射光谱显示了表面带结构中几个缝隙的开口，而扫描隧道光谱则揭示了电子密度的能量依赖性。这些组合的光谱数据允许通过推导其第一傅里叶分量来确定重建潜力。我们还证明，由于在这个Au邻面上的奇异生长，我们可以获得三角形Ag岛的自组装超晶格。纳米结构的高度有序性导致均匀的电子性能。

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来源
《Surface Science》 |2007年第18期|4029-4035|共7页
作者
C. Didiot; Y. Fagot-Revurat; S. Pons; B. Kierren; D. Malterre;
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作者单位

Laboratoire de Physique des Matériaux UMR 7556, Nancy Université I - B.P. 239 F-54506 Vandœuvre-lès-Nancy, France;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
surface electronic phenomena; quantum effects; reconstructed surface; self-organized growth; angle resolved photoemission; scanning tunneling spectroscopy;

机译：表面电子现象量子效应重建表面;自组织增长;角分辨光发射;扫描隧道光谱;

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ARPES and STS investigation of noble metal Shockley states: Confinement in vicinal Au(111) surfaces and self-organized nanostructures

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