原始硅表面的掺杂诱导自旋极化:Si(5 5 12)2 × 1 案例

IF 0.8 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
Kangmo Yeo, Jae Ryang Hahn, Sukmin Jeong
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引用次数: 0

摘要

自发自旋极化是半导体的一种理想特性,但在原始材料中尚未观察到。一项理论研究表明,金/硅(553)表面自发表现出反铁磁特性。硅(5 5 12)表面与金/硅(553)表面具有相似的原子结构,特别是存在稳定的蜂窝链。硅(5 5 12)表面呈现出四种不同的表面结构:蜂巢链、二聚体、金刚体和四聚体。我们发现,虽然原始的 Si(5 5 12) 没有显示自旋极化,但掺杂的 Si(5 5 12) 表面会导致自旋分裂,主要集中在金刚原子和蜂窝链的悬键处。这种自旋分裂导致表面转变为铁磁态。虽然电子掺杂和空穴掺杂的行为截然不同,但随着掺杂电荷数量的增加,表面磁化会大致增强。这些发现表明,电荷掺杂是诱导硅(5 5 12)表面自旋极化的一种可行方法,为实现半导体的这一理想特性提供了一条潜在途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Doping-induced spin polarization on the pristine Si surface: a Si(5 5 12)2 × 1 case

Doping-induced spin polarization on the pristine Si surface: a Si(5 5 12)2 × 1 case

While spontaneous spin polarization is a desirable property in semiconductors, it has not been observed in pristine materials. A theoretical study suggested that the Au/Si(553) surface exhibits anti-ferromagnetic properties spontaneously. The Si(5 5 12) surface shares a similar atomic structure with the Au/Si(553) surface, particularly the presence of a stable honeycomb chain. The Si(5 5 12) surface exhibits four distinct surface structures: honeycomb chain, dimer, adatom, and tetramer. We find that while the pristine Si(5 5 12) shows no spin polarization, the doped Si(5 5 12) surface leads to spin splitting, primarily concentrated at the dangling bonds of the adatom and honeycomb chain. This spin splitting induces a transformation of the surface into a ferromagnetic state. Although the behaviors are rather different for the electron and hole doping, the surface magnetization roughly strengthens as the number of doped charges increases. These findings suggest that charge doping can be a viable approach to induce spin polarization in Si(5 5 12) surfaces, offering a potential route towards achieving this desired property in semiconductors.

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来源期刊
Journal of the Korean Physical Society
Journal of the Korean Physical Society PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.20
自引率
16.70%
发文量
276
审稿时长
5.5 months
期刊介绍: The Journal of the Korean Physical Society (JKPS) covers all fields of physics spanning from statistical physics and condensed matter physics to particle physics. The manuscript to be published in JKPS is required to hold the originality, significance, and recent completeness. The journal is composed of Full paper, Letters, and Brief sections. In addition, featured articles with outstanding results are selected by the Editorial board and introduced in the online version. For emphasis on aspect of international journal, several world-distinguished researchers join the Editorial board. High quality of papers may be express-published when it is recommended or requested.
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