Emergent ferromagnetism near three-quarters filling in twisted bilayer graphene
SLAC National Accelerator Laboratory · Stanford University · +3 more institutions
Abstract
When two sheets of graphene are stacked at a small twist angle, the resulting flat superlattice minibands are expected to strongly enhance electron-electron interactions. Here, we present evidence that near three-quarters ([Formula: see text]) filling of the conduction miniband, these enhanced interactions drive the twisted bilayer graphene into a ferromagnetic state. In a narrow density range around an apparent insulating state at [Formula: see text], we observe emergent ferromagnetic hysteresis, with a giant anomalous Hall (AH) effect as large as 10.4 kilohms and indications of chiral edge states. Notably, the magnetization of the sample can be reversed by applying a small direct current. Although the AH…
Citation impact
- FWCI
- 75.98
- Percentile
- 100%
- References
- 65
Authors
8- ALAaron L. SharpeCorresponding
SLAC National Accelerator Laboratory, Stanford University
- EJEli J. Fox
SLAC National Accelerator Laboratory, Stanford University
- AWArthur W. Barnard
Stanford University
- JFJoe Finney
Stanford University
- KWKenji Watanabe
National Institute for Materials Science
Topics & keywords
- Ferromagnetism
- Bilayer graphene
- Superlattice
- Graphene
- Bilayer
- Magnetization
- Thermal conduction
- Dissipation