Monolayer M₂X₂O as potential 2D altermagnets and half-metals: a first principles study.

IF 2.3 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER Journal of Physics: Condensed Matter Pub Date : 2024-11-19 DOI:10.1088/1361-648X/ad8e9f

Kaixin Zou, Yuxin Yang, Baojuan Xin, Wentao Wu, Yahui Cheng, Hong Dong, Hui Liu, Feng Luo, Feng Lu, Wei-Hua Wang

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Abstract

Realizing novel two-dimensional (2D) magnetic states would accelerate the development of advanced spintronic devices and the understandings of 2D magnetic physics. In this paper, we have examined the magnetic and electronic properties of 20 dynamically stable and exfoliable M₂X₂O (M = Ti-Ni; X = S-Te; excluding Co₂Te₂O). It has been unveiled that [X₄O₂]-D_2hand [M₄]-D_4hcrystal fields govern the M-3dorbital splittings in M₂X₂O. The splittings further lead to the antiferromagnetic (AFM) orderings in Ti₂S₂O/Fe₂S₂O/Fe₂Se₂O/M₂X₂O (M = V, Cr, Mn and Ni; X = S-Se) as well as the ferromagnetic orderings in Ti₂Se₂O/Ti₂Te₂O/Fe₂Te₂O/Co₂S₂O/Co₂Se₂O through kinetic and superexchange mechanisms. Notably, all the AFM M₂X₂O are 2D altermagnets, and Ti₂Se₂O/Ti₂Te₂O/Co₂S₂O/Co₂Se₂O are 2D half-metals. In particular, the anisotropicd-d/phoppings lead to the tunable altermagnetic splitting in Ti₂S₂O/Cr₂Te₂O, while the parity of V-3d_yzorbital contributes to the symmetry-protected altermagnetic splitting within V₂X₂O. These altermagnetic and half-metallic monolayer M₂X₂O provide promising candidates applied in low-dimensional spintronic devices. In addition, the potential 2D altermagnetic Weyl semimetal of Fe₂S₂O/Fe₂Se₂O, nodal-loop half-metal of Ti₂Se₂O and half-semi metal of Ti₂Te₂O facilitate to uncover novel low-dimensional topological physics. These theoretical results would expand the platform in particular for 2D altermagnets and nontrivial systems.

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作为潜在二维变磁体和半金属的单层 M2X2O：第一原理研究。

实现新颖的二维（2D）磁态将加速先进自旋电子器件的发展和对二维磁性物理学的理解。本文研究了 20 种动态稳定的可剥离 M2X2O（M = Ti ~ Ni；X = S ~ Te；不包括 Co2Te2O）的磁性和电子特性。研究发现，[X4O2]-D2 和[M4]-D4h 晶体场控制着 M2X2O 中的 M-3dorbital 分裂。分裂进一步导致 Ti2S2O/Fe2S2O/Fe2Se2O/M2X2O （M = V、Cr、Mn 和 Ni；X = S ~ Se）中的反铁磁有序化，并通过动力学和超交换机制导致 Ti2Se2O/Ti2Te2O/Fe2Te2O/Co2S2O/Co2Se2O 中的铁磁有序化。值得注意的是，所有反铁磁性的 M2X2O 都是二维反磁体，而 Ti2Se2O/Ti2Te2O/Co2S2O/Co2Se2O 则是二维半金属。其中，各向异性的d-d/phoppings导致了Ti2S2O/Cr2Te2O中可调的变磁分裂，而V-3dyzorbital的奇偶性则导致了V2X2O中对称保护的变磁分裂。这些变磁和半金属单层 M2X2O 为低维自旋电子器件的应用提供了很好的候选材料。此外，Fe2S2O/Fe2Se2O 潜在的二维改磁韦尔半金属、Ti2Se2O 的结环半金属和 Ti2Te2O 的半半金属也有助于发现新的低维拓扑物理。这些理论研究成果将拓展研究平台，特别是二维变磁体和非三维系统的研究平台。

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

Journal of Physics: Condensed Matter 物理-物理：凝聚态物理

CiteScore

5.30

自引率

7.40%

发文量

1288

审稿时长

2.1 months

期刊介绍： Journal of Physics: Condensed Matter covers the whole of condensed matter physics including soft condensed matter and nanostructures. Papers may report experimental, theoretical and simulation studies. Note that papers must contain fundamental condensed matter science: papers reporting methods of materials preparation or properties of materials without novel condensed matter content will not be accepted.