Observation of Highly Spin-Polarized Dangling Bond Surface States in Rare-Earth Pnictide Tellurides.

IF 27.4 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Advanced Materials Pub Date : 2024-11-07 DOI:10.1002/adma.202411733

Yongqing Cai, Jing Zhang, Heming Zha, Fayuan Zhang, Yuan Wang, Weizhao Chen, Zhanyang Hao, Liwei Deng, Wenjing Liu, Hongtao Rong, Zhicheng Jiang, Yichen Yang, Qi Jiang, Zhengtai Liu, Mao Ye, E D L Rienks, Yaobo Huang, Shu Guo, Junhao Lin, Le Wang, Qihang Liu, Shan Qiao, Chaoyu Chen

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Abstract

To generate and manipulate spin-polarized electronic states in solids are crucial for modern spintronics. The textbook routes employ quantum well states or Shockley/topological type surface states whose spin degeneracy is lifted by strong spin-orbit coupling and inversion symmetry breaking at the surface/interface. The resultant spin polarization is usually truncated because of the intertwining between multiple orbitals. Here a unique type of surface states is realized, namely, dangling bond surface states in a family of ternary rare-earth pnictide tellurides RePnTe (Re = La, Gd, Ce; Pn = Sb, Bi), with robust band structure and sizeable spin splitting. Spin and angle-resolved photoemission spectroscopy measurements reveal high spin polarization and distinct spin-momentum locking texture, which, according to the theoretical analysis, arise from local site asymmetry and surface-purified spin-orbital texture. The work extends the so-called "hidden spin polarization" from the bulk to the surface, presenting an intriguing spin-orbital-momentum-layer locking phenomenon, which may shed lights on potential spintronic applications.

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观测稀土锑化碲化物中高度自旋极化的悬挂键表面态。

在固体中产生和操纵自旋极化电子态对现代自旋电子学至关重要。教科书上的方法是采用量子阱态或肖克利/拓扑型表面态，通过表面/界面的强自旋轨道耦合和反转对称性破缺来消除其自旋变性。由于多个轨道之间的相互缠绕，由此产生的自旋极化通常是截断的。这里实现了一种独特的表面态类型，即三元稀土锑化碲化物 RePnTe（Re = La、Gd、Ce；Pn = Sb、Bi）家族中的悬空键表面态，具有稳健的带状结构和可观的自旋分裂。自旋和角度分辨光发射光谱测量揭示了高自旋极化和独特的自旋动量锁定纹理，根据理论分析，这源于局部位点不对称和表面净化的自旋轨道纹理。这项工作将所谓的 "隐蔽自旋极化 "从块体扩展到了表面，呈现出一种引人入胜的自旋轨道-动量层锁定现象，这可能会给潜在的自旋电子应用带来启示。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Materials 工程技术-材料科学：综合

CiteScore

43.00

自引率

4.10%

发文量

2182

审稿时长

2 months

期刊介绍： Advanced Materials, one of the world's most prestigious journals and the foundation of the Advanced portfolio, is the home of choice for best-in-class materials science for more than 30 years. Following this fast-growing and interdisciplinary field, we are considering and publishing the most important discoveries on any and all materials from materials scientists, chemists, physicists, engineers as well as health and life scientists and bringing you the latest results and trends in modern materials-related research every week.