量子反常霍尔效应
凝聚态物理
物理
拓扑(电路)
铁磁性
拓扑序
霍尔效应
量子霍尔效应
应变工程
六方晶系
Chern类
相变
极化(电化学)
量子
联轴节(管道)
反演(地质)
量子自旋霍尔效应
单层
带隙
量子相变
相(物质)
点反射
电子能带结构
形式主义(音乐)
量子相
量子数
作者
Xuebing Peng,Baorui Xia,Zhengmei Zhang,Chenglong Jia,M S,Daqiang Gao
摘要
The anomalous valley Hall (AVH) effect, characterized by a polarized valley degree of freedom, provides a route toward a valley-dependent quantum anomalous Hall (QAH) state. Yet, realizing both in one material remains challenging due to their distinct Chern number requirements. We propose a general strategy for a strain-tunable topological transition in hexagonal ferromagnets. In the inversion-broken system, spin–orbit coupling yields valley polarization with valley-contrasted Chern numbers (C = ±1/2). Strain closes and reopens the gap at one valley, driving band inversion that switches the total Chern number to C = −1, transforming the system into a QAH phase with a single chiral edge channel. This strain-driven transition is demonstrated in monolayers of FeXY (X ≠ Y; Cl, Br, I), ScBr2, and VSi2P4. These results highlight the key role of strain engineering in controlling valley topology and provide a viable route toward valleytronic and topotronic applications.
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