Large quantum anomalous Hall effect in spin-orbit proximitized rhombohedral graphene

Tonghang Han; Zhengguang Lu; Yuxuan Yao; Jixiang Yang; Junseok Seo; Chiho Yoon; Kenji Watanabe; Takashi Taniguchi; Liang Fu; Fan Zhang; Long Ju

doi:10.1126/science.adk9749

Abstract

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The quantum anomalous Hall effect (QAHE) is a robust topological phenomenon that features quantized Hall resistance at zero magnetic field. We report the QAHE in a rhombohedral pentalayer graphene-monolayer tungsten disulfide (WS<sub>2</sub>) heterostructure. Distinct from other experimentally confirmed QAHE systems, this system has neither magnetic element nor moiré superlattice effect. The QAH states emerge at charge neutrality and feature Chern numbers <i>C</i> = ±5 at temperatures of up to about 1.5 kelvin. This large QAHE arises from the synergy of the electron correlation in intrinsic flat bands of pentalayer graphene, the gate-tuning effect, and the proximity-induced Ising spin-orbit coupling. Our experiment demonstrates the potential of crystalline two-dimensional materials for intertwined electron correlation and band topology physics and may enable a route for engineering chiral Majorana edge states.

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Large quantum anomalous Hall effect in spin-orbit proximitized rhombohedral graphene

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