凝聚态物理
磁性
双层石墨烯
材料科学
石墨烯
铁磁性
克尔效应
磁化
带隙
铁电性
单层
物理
双层
Valleytronics公司
磁滞
镜像对称
磁圆二色性
电子能带结构
光导率
对称(几何)
磁强计
魔法角
磁滞
反射(计算机编程)
对称性破坏
作者
Eylon Persky,Minhao He,Jiaqi Cai,Takashi Taniguchi,Kenji Watanabe,Xiaodong Xu,A. Kapitulnik
标识
DOI:10.48550/arxiv.2503.21750
摘要
Flat bands in graphene-based moiré structures host a wide range of emerging strongly correlated and topological phenomena. Optically probing and controlling them can reveal important information such as symmetry and dynamics, but have so far been challenging due to the small energy gap compared to optical wavelengths. Here, we report near infrared optical control of orbital magnetism and associated anomalous Hall effects (AHE) in a magic angle twisted bilayer graphene (MATBG) on monolayer WSe$_2$ device. We show that the properties of the AHE, such as hysteresis and amplitude, can be controlled by light near integer moiré fillings, where spontaneous ferromagnetism exists. By modulating the light helicity, we observe periodic modulation of the transverse resistance in a wide range of fillings, indicating light induced orbital magnetization through a large inverse Faraday effect. At the transition between metallic and AHE regimes, we also reveal large and random switching of the Hall resistivity, which are attributed to optical control of percolating cluster of magnetic domains. Our results open the door to optical manipulation of correlation and topology in MATBG and related structures.
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