手性材料中径向自旋织构的多样性

Daniel Gosálbez-Martínez, Alberto Crepaldi, Oleg V. Yazyev
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引用次数: 1

摘要

本文介绍了在非极性手性点群$({D}_{2},$ ${D}_{3},$ ${D}_{4},$ ${D}_{6},$ $T,$ $O)$为特征的晶体中高对称性点出现的径向自旋织构在动量空间中的分类。基于这些点群在矢量场中的对称性约束,我们研究了动量高达三阶的径向自旋织构的一般表达式。此外,我们确定了45个支持径向自旋织构的非极性手性空间群的高对称性点。这两个原则用于筛选材料数据库,以寻找超出基本刺猬径向自旋纹理的原型。在选定的材料中,我们重点介绍了轴子绝缘体候选材料${\mathrm{Ta}} {{2}}{\mathrm{Se}} {{8}\mathrm{I}$,提出用于暗物质探测的材料${\mathrm{Ag}} {{3}\mathrm{Au}{\mathrm{Te}}}{2}$和heazlewoodite ${\mathrm{Ni}} {3}{\mathrm{S}}}{2}$,一种预测会表现出电流诱导自旋极化的传统金属。我们指出,本文提出的对称分析是更一般的,并扩展到研究动量空间中的其他矢量性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Diversity of radial spin textures in chiral materials

Diversity of radial spin textures in chiral materials
We introduce a classification of the radial spin textures in momentum space that emerge at the high-symmetry points in crystals characterized by nonpolar chiral point groups $({D}_{2},$ ${D}_{3},$ ${D}_{4},$ ${D}_{6},$ $T,$ $O)$. Based on the symmetry constraints imposed by these point groups in a vector field, we study the general expression for the radial spin textures up to third order in momentum. Furthermore, we determine the high-symmetry points of the 45 nonpolar chiral space groups supporting a radial spin texture. These two principles are used to screen materials databases for archetypes that go beyond the basic hedgehog radial spin texture. Among the selected materials we highlight the axion insulator candidate ${\mathrm{Ta}}_{2}{\mathrm{Se}}_{8}\mathrm{I}$, the material proposed for dark matter detection ${\mathrm{Ag}}_{3}\mathrm{Au}{\mathrm{Te}}_{2}$, and heazlewoodite ${\mathrm{Ni}}_{3}{\mathrm{S}}_{2}$, a conventional metal predicted to exhibit current-induced spin polarization. We point out that the symmetry analysis proposed in this Letter is more general and extends to studying other vector properties in momentum space.
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