金属丰度
铁磁性
自旋轨道相互作用
凝聚态物理
联轴节(管道)
合金
自旋(空气动力学)
材料科学
电子结构
物理
天体物理学
热力学
星星
复合材料
作者
Xin Tan,A. Ernst,Kenta Hagiwara,Ying‐Jiun Chen,Claus M. Schneider,Christian Tusche
摘要
We report the emergence of two-dimensional itinerant half-metallicity in a two-atomic-layer thick iron-palladium alloy. Against the common belief that spin-orbit coupling is adverse to half-metallicity, the complex interplay between exchange and spin-orbit coupling counterintuitively enables it via electronic band hybridization. The 2D ferromagnet is engineered directly via controlled alloying and is verified experimentally via spin-resolved band structure analyses. First-principles calculations corroborate its tunability by providing a systematic bottom-up approach through stepwise ground-state construction. The appearance of hybridization points at specific k points, via interplay between exchange and spin-orbit interactions, is responsible for the emergence of half-metallicity.
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