自旋电子学
单层
凝聚态物理
磁性
材料科学
居里温度
铁磁性
磁各向异性
自旋极化
纳米技术
磁化
物理
磁场
量子力学
电子
作者
Xiuli Wang,Huimin Guo,Hua Chen,Linghao Yan,Jingjing Xie,Yehui Zhang,Jin Lv,Huang Wu
标识
DOI:10.1016/j.apsusc.2023.157084
摘要
Spintronics, the golden era of modern magnetism. Nowadays, intrinsic two-dimensional (2D) half-metal materials with pure spin sources possess a broad prospect in the practical application of modern spintronics. Therefore, based on first-principles calculations, we systematically predict the electronic structures and magnetic properties of non-equivalent alloying compounds CrMnI6 monolayer and fortunately find that the monolayer is a dynamically and thermally stable half-metal with a large in-plane magnetic anisotropy energy (MAE) of 36.75 meV/cell. Its Curie temperature is 145 K, significantly higher than that of CrI3 monolayer. In addition, the half-metallicity of monolayer CrMnI6 can be remained in almost the entire range of carrier doping and strain. Moreover, the in-plane MAE can be further improved to 68.41 and 60.58 meV/cell under 0.1 hole doping and 6% tensile strain, respectively. Simultaneously, according to the second-order perturbation theory, the larger in-plane MAE of CrMnI6 monolayer mainly originates from the couplings of 〈pxLxpz〉 in the different spin channel of I atom and the couplings of 〈dx2-y2Lzdxy〉 in the same spin channel of Mn and Cr atoms. Our prediction of such a novel 2D FM half-metal CrMnI6 monolayer may serve as a good candidate for the next-generation high-performance spintronic nanodevices and high- density magnetic recording and sensors.
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