扭曲双层锗烯中的摩尔调制带隙和范霍夫奇异点

IF 4.5 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Pantelis Bampoulis, Carolien Castenmiller, Dennis J Klaassen, Jelle V Mil, Paul L de Boeij, Motohiko Ezawa and Harold J W Zandvliet
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引用次数: 0

摘要

扭转二维拓扑绝缘体的双层膜有可能创造出独特的物质量子态。在这里,我们成功地在 Ge2Pt(101) 上合成了锗烯扭转双层膜,其扭转角为 21.8°,对应于同位(√7×√7)结构。利用扫描隧道显微镜和光谱学,我们揭示了这种构型的结构和电子特性,发现了一个摩尔调制带隙和一个定义明确的边缘态。这种带隙在 AB/BA 叠层位点处打开,在 AA 叠层位点处关闭,这种现象归因于扫描隧道显微镜尖端诱导的电场。我们的研究进一步揭示了在 -0.8 eV 和 +1.04 eV 处的两个范霍夫奇点,从而得出费米速度为 (8 ± 1) × 105 m s-1。我们的紧密结合结果揭示了一种独特的量子态,在这种态中,拓扑特性可以通过电场进行调节,并有可能引发两种拓扑相变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Moiré-modulated band gap and van Hove singularities in twisted bilayer germanene
Twisting bilayers of two-dimensional topological insulators has the potential to create unique quantum states of matter. Here, we successfully synthesized a twisted bilayer of germanene on Ge2Pt(101) with a 21.8° twist angle, corresponding to a commensurate (√7×√7) structure. Using scanning tunneling microscopy and spectroscopy, we unraveled the structural and electronic properties of this configuration, revealing a moiré-modulated band gap and a well-defined edge state. This band gap opens at AB/BA stacked sites and closes at AA stacked sites, a phenomenon attributed to the electric field induced by the scanning tunneling microscopy tip. Our study further revealed two van Hove singularities at −0.8 eV and +1.04 eV, resulting in a Fermi velocity of (8 ± 1) × 105 m s−1. Our tight-binding results uncover a unique quantum state, where the topological properties could be regulated through an electric field, potentially triggering two topological phase transitions.
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来源期刊
2D Materials
2D Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
10.70
自引率
5.50%
发文量
138
审稿时长
1.5 months
期刊介绍: 2D Materials is a multidisciplinary, electronic-only journal devoted to publishing fundamental and applied research of the highest quality and impact covering all aspects of graphene and related two-dimensional materials.
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