Atomic-scale characterization of two-dimensional magnets and their heterostructures

Yuli Huang , Mingyue Sun , Yihe Wang , Andrew Thye Shen Wee , Wei Chen
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Abstract

The realization of long-range magnetic ordering in two-dimensional (2D) van der Waals systems significantly expands the scope of the 2D family as well as their possible spin-related phenomena and device applications. The atomically thin nature of 2D materials makes their magnetically ordered states sensitive to local environments, and this necessitates advanced characterization at the atomic scale. Here, we briefly review several representative 2D magnetic systems, namely, iron chalcogenides, chromium chalcogenides, chromium trihalides, and their heterostructures. With powerful scanning-probe microscopy, atomically resolved characterization of their crystalline configurations, electronic structures, and magnetization distributions has been achieved, and novel phenomena such as giant tunneling magnetoresistance and topological superconductivity have been observed. Finally, we discuss the challenges and new perspectives in this flourishing field.

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二维磁体及其异质结构的原子尺度表征
二维(2D)范德华体系中远程磁有序的实现大大扩展了二维家族的范围以及它们可能的自旋相关现象和器件应用。二维材料的原子薄性质使得它们的磁有序状态对局部环境敏感,这就需要在原子尺度上进行高级表征。本文简要介绍了几种具有代表性的二维磁性体系,即硫系铁、硫系铬、三卤化铬及其异质结构。利用强大的扫描探针显微镜,实现了它们的晶体构型、电子结构和磁化分布的原子分辨表征,并观察到巨隧穿磁阻和拓扑超导等新现象。最后,我们讨论了这个蓬勃发展的领域所面临的挑战和新的前景。
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