Berry连接和曲率
凝聚态物理
量子反常霍尔效应
物理
反铁磁性
联轴节(管道)
量子
磁场
电场
异质结
曲率
带隙
领域(数学)
霍尔效应
国家(计算机科学)
拓扑(电路)
电子
量子霍尔效应
导带
电荷(物理)
量子计算机
Valleytronics公司
量子阱
作者
Majeed Ur Rehman,Lede Xian
出处
期刊:Nano Letters
[American Chemical Society]
日期:2026-06-03
标识
DOI:10.1021/acs.nanolett.6c00980
摘要
The quantum anomalous Hall (QAH) effect enables dissipationless transport. However, known QAH materials rarely combine ferrovalley behavior with spin–valley locking, and Néel antiferromagnets remain largely unexplored in QAH platforms. Here, we propose a spin–valley locked QAH ferrovalley state in a MnSe/Pt2HgSe3 heterostructure. Néel-ordered MnSe induces spin-polarized bands in Pt2HgSe3 via magnetic proximity, while spin–orbit coupling lifts valley degeneracy, yielding valley-dependent gaps and a sizable QAH gap of ∼40 meV at charge neutrality. Unlike conventional QAH systems, spin–valley locking is preserved in the conduction band, producing a distinct topological phase. Chemical-potential tuning drives transitions to spin-polarized anomalous valley Hall and anomalous Hall states with opposite spin–valley responses. An out-of-plane electric field reverses the Berry curvature distribution between valleys, while the Chern number and spin–valley texture are strongly coupled to the Néel vector, establishing a tunable antiferromagnetic topological-valleytronic platform.
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