Atomic steps on the MgO(100) surface

S. R. Lu; R. Yu; J. Zhu

doi:10.1103/PhysRevB.87.165436

Atomic steps on the MgO(100) surface

S. R. Lu^*
, R. Yu
, J. Zhu

^*此作品的通讯作者

Tsinghua University

科研成果: 期刊稿件 › 文章 › 同行评审

14 引用（Scopus）

摘要

Defects on insulating surfaces have been studied much less compared to conductors due to experimental difficulties. Here we report quantitative structure analysis of atomic steps on the MgO(100) surface combining aberration-corrected high resolution transmission electron microscopy and density function theory calculations. While the broad faces show little relaxation or rumpling, the atoms at the step sites have significant displacements, depending on the atomic coordination. The general trend is to smooth the steps and lower their formation energy. The angles at the upper and lower corners of the mono-atomic step increase from unrelaxed 90 to 94 and 101, respectively. The experimentally measured positions of the atoms at the step sites match the density function theory results within several picometers.

源语言	英语
文章编号	165436
期刊	Physical Review B - Condensed Matter and Materials Physics
卷	87
期	16
DOI	https://doi.org/10.1103/PhysRevB.87.165436
出版状态	已出版 - 24 4月 2013
已对外发布	是

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abstract = "Defects on insulating surfaces have been studied much less compared to conductors due to experimental difficulties. Here we report quantitative structure analysis of atomic steps on the MgO(100) surface combining aberration-corrected high resolution transmission electron microscopy and density function theory calculations. While the broad faces show little relaxation or rumpling, the atoms at the step sites have significant displacements, depending on the atomic coordination. The general trend is to smooth the steps and lower their formation energy. The angles at the upper and lower corners of the mono-atomic step increase from unrelaxed 90 to 94 and 101, respectively. The experimentally measured positions of the atoms at the step sites match the density function theory results within several picometers.",

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AU - Yu, R.

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N2 - Defects on insulating surfaces have been studied much less compared to conductors due to experimental difficulties. Here we report quantitative structure analysis of atomic steps on the MgO(100) surface combining aberration-corrected high resolution transmission electron microscopy and density function theory calculations. While the broad faces show little relaxation or rumpling, the atoms at the step sites have significant displacements, depending on the atomic coordination. The general trend is to smooth the steps and lower their formation energy. The angles at the upper and lower corners of the mono-atomic step increase from unrelaxed 90 to 94 and 101, respectively. The experimentally measured positions of the atoms at the step sites match the density function theory results within several picometers.

AB - Defects on insulating surfaces have been studied much less compared to conductors due to experimental difficulties. Here we report quantitative structure analysis of atomic steps on the MgO(100) surface combining aberration-corrected high resolution transmission electron microscopy and density function theory calculations. While the broad faces show little relaxation or rumpling, the atoms at the step sites have significant displacements, depending on the atomic coordination. The general trend is to smooth the steps and lower their formation energy. The angles at the upper and lower corners of the mono-atomic step increase from unrelaxed 90 to 94 and 101, respectively. The experimentally measured positions of the atoms at the step sites match the density function theory results within several picometers.

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Atomic steps on the MgO(100) surface

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