Sb (111) abnormal behavior under ion etching

机译：SB（111）离子蚀刻下的异常行为

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Due to a strong spin-orbit interaction (SOI), the surface states of Sb (111) are similar to those for topological insulators (TI) Sugawara et al. (2006). The surface states are protected by time-reversal symmetry and energy dispersion is a linear function of momentum. Defects in crystal structure lead to a local break of the surface translational symmetry and can modify surface states. It is the primary reason to study defects of Sb crystal structure and their effect on the surface states dispersion. Etching of the Sb (111) surface using Ar~+ ions is a common way to create defects both in a bulk and on the surface of the crystal. Sb (111) ion etching at room temperature reveals anomalous behavior of surface crystal structure. It results in formation of flat terraces of 2nm in size. Investigation of electronic structure of the etched Sb (111) surface has demonstrated increase of density of states (DOS) at the Fermi level. The results are discussed in terms of local break of conditions of Peierls transition.

机译：由于强的旋转轨道相互作用（SOI），SB（111）的表面状态类似于拓扑绝缘体（TI）Sugawara等人。（2006）。通过时间反转对称的保护表面状态，能量分散是动量的线性函数。晶体结构的缺陷导致表面平移对称的局部断裂，可以修改表面状态。研究Sb晶体结构缺陷的主要原因及其对表面态分散的影响。使用Ar〜+离子的蚀刻Sb（111）表面是一种常见的方法，可以在散装和晶体表面上产生缺陷。室温下的Sb（111）离子蚀刻显示出表面晶体结构的异常行为。它导致形成2nm的平坦露台。蚀刻的Sb（111）表面的电子结构的研究表明，在费米水平上的状态（DOS）的升高。结果在Peierls转型的局部突破方面讨论。

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《Conference on Plasma-Surface Interactions》|2015年||共5页
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A.A. Smirnov; S.I. Bozhko; A.M. Ionov; S.G. Protasova; S.V. Chekmazov; A.A. Kapustin;
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中图分类原子能技术;
关键词
STM; UPS; LEED; DFT modeling; topological insulator; Pierls transition; ion etching; Sb (111);

机译：STM;UPS;LEED;DFT建模;拓扑绝缘体;PIERLS过渡;离子蚀刻;SB（111）;

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机译：离子蚀刻下的Sb（111）异常行为
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Sb (111) abnormal behavior under ion etching

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