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Gate-tunable anomalous Hall effect in Bernal tetralayer graphene

Hao Chen, Arpit Arora, Justin C. W. Song () and Kian Ping Loh ()
Additional contact information
Hao Chen: National University of Singapore
Arpit Arora: Nanyang Technological University
Justin C. W. Song: Nanyang Technological University
Kian Ping Loh: National University of Singapore

Nature Communications, 2023, vol. 14, issue 1, 1-6

Abstract: Abstract Large spin-orbit coupling is often thought to be critical in realizing magnetic order-locked charge transport such as the anomalous Hall effect (AHE). Recently, artificial stacks of two-dimensional materials, e.g., magic-angle twisted bilayer graphene on hexagonal boron-nitride heterostructures and dual-gated rhombohedral trilayer graphene, have become platforms for realizing AHE without spin-orbit coupling. However, these stacking arrangements are not energetically favorable, impeding experiments and further device engineering. Here we report an anomalous Hall effect in Bernal-stacked tetralayer graphene devices (BTG), the most stable configuration of four-layer graphene. BTG AHE is switched on by a displacement field and is most pronounced at low carrier densities. The onset of AHE occurs in tandem with a full metal to a broken isospin transition indicating an orbital origin of the itinerant ferromagnetism. At lowest densities, BTG exhibits an unconventional hysteresis with step-like anomalous Hall plateaus. Persisting to several tens of kelvin, AHE in BTG demonstrates the ubiquity and robustness of magnetic order in readily available and stable multilayer Bernal graphene stacks—a new venue for intrinsic non-reciprocal responses.

Date: 2023
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DOI: 10.1038/s41467-023-43796-w

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