掺杂非磁性元素的 CrI3 薄膜中的层间铁磁耦合

IF 6.5 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Frontiers of Physics Pub Date : 2024-08-09 DOI:10.1007/s11467-024-1435-2

Xuqi Li, Xuyan Chen, Shiyang Sun, Huihui Zhang, Haidan Sang, Xiaonan Wang, Shifei Qi, Zhenhua Qiao

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引用次数: 0

摘要

对二维层状材料磁性的探索引起了广泛的研究兴趣。对于具有层间反铁磁性的单斜相 CrI3 来说，找到一种静态且稳健的方法来实现固有的层间铁磁耦合是非常理想的。在这项工作中，我们通过第一原理计算研究了掺杂非磁性元素（如 O、S、Se、N、P、As 和 C）的双层和三层 CrI3 系统的电子结构和磁性能。结果表明，掺杂 O、P、S、As 和 Se 的双层 CrI3 可以实现层间铁磁性。进一步的分析表明，掺杂少层 CrI3 中的层间铁磁耦合与掺杂元素周围局部自旋极化态的形成密切相关。进一步的研究表明，掺砷的三层 CrI3 可以实现层间铁磁耦合。这项工作证明，掺杂非磁性元素可以实现层间铁磁耦合的少层 CrI3，同时保持其半导体特性，而不会引入额外的载流子。

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Interlayer ferromagnetic coupling in nonmagnetic elements doped CrI3 thin films

The exploration of magnetism in two-dimensional layered materials has attracted extensive research interest. For the monoclinic phase CrI₃ with interlayer antiferromagnetism, finding a static and robust way of realizing the intrinsic interlayer ferromagnetic coupling is desirable. In this work, we study the electronic structure and magnetic properties of the nonmagnetic element (e.g., O, S, Se, N, P, As, and C) doped bi-and triple-layer CrI₃ systems via first-principles calculations. Our results demonstrate that O, P, S, As, and Se doped CrI₃ bilayer can realize interlayer ferromagnetism. Further analysis shows that the interlayer ferromagnetic coupling in the doped few-layer CrI₃ is closely related to the formation of localized spinpolarized state around the doped elements. Further study presents that, for As-doped tri-layer CrI₃, it can realize interlayer ferromagnetic coupling. This work proves that nonmagnetic element doping can realize the interlayer ferromagnetically-coupled few-layer CrI₃ while maintaining its semiconducting characteristics without introducing additional carriers.

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来源期刊

Frontiers of Physics PHYSICS, MULTIDISCIPLINARY-

CiteScore

9.20

自引率

9.30%

发文量

898

审稿时长

6-12 weeks

期刊介绍： Frontiers of Physics is an international peer-reviewed journal dedicated to showcasing the latest advancements and significant progress in various research areas within the field of physics. The journal's scope is broad, covering a range of topics that include: Quantum computation and quantum information Atomic, molecular, and optical physics Condensed matter physics, material sciences, and interdisciplinary research Particle, nuclear physics, astrophysics, and cosmology The journal's mission is to highlight frontier achievements, hot topics, and cross-disciplinary points in physics, facilitating communication and idea exchange among physicists both in China and internationally. It serves as a platform for researchers to share their findings and insights, fostering collaboration and innovation across different areas of physics.