各向异性
凝聚态物理
物理
基础(线性代数)
自旋(空气动力学)
张量(固有定义)
反铁磁性
磁各向异性
旋转(数学)
联轴节(管道)
代表(政治)
方向(向量空间)
一般化
磁场
感应耦合
理论物理学
旋转组SO
磁性结构
作者
Zheng Liu,Yang Gao,Qian Niu
摘要
Characterizing the anisotropic structure in noncollinear antiferromagnets is essential for antiferromagnetic spintronics. In this Letter, we provide a microscopic theory linking the anisotropy effects induced by the rigid-body rotation of spin order to spin-orbit coupling. Our method goes beyond the conventional magnetic group theory, offering a concise yet powerful tool to characterize diverse anisotropy effects in complex magnetic systems. Using the group representation theory of the spin group, we obtain a set of basis functions formed from tensor elements of spin-orbit vector-which originates from spin-orbit coupling and is tied to the rigid-body rotation of the spin order-to systematically describe the structure of anisotropy effects. As a concrete example, we apply our framework to coplanar antiferromagnets Mn_{3}Sn and Mn_{3}Ir, demonstrating that the corresponding basis functions can well capture both the geometric and magnitude dependencies of the magnetic anisotropy energy and anomalous Hall conductivity. Finally, we discuss the generalization of our framework to broader classes of anisotropy phenomena in magnetic systems.
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