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- FIELD
- Phys:Condensed Matter Physics
- DATE
-
Oct 16 (Wed), 2024
- TIME
- 11:00 ~ 13:00
- PLACE
- 1424
- SPEAKER
- Park, Jinhong
- HOST
- Hwang, Kyusung
- INSTITUTE
- Karlsruhe Institute of Technology
- TITLE
- Network of chiral one-dimensional channels and localized states emerging in a moiré system
- ABSTRACT
- Moiré systems provide a highly tunable platform for engineering band structures and exotic correlated phases. Here, we theoretically study a model for a single layer of graphene subject to a smooth moiré electrostatic potential, induced by a insulating substrate layer. For sufficiently large moiré unit cells, we find that ultra-flat bands coexist with a triangular network of chiral one-dimensional (1D) channels. These channels mediate an effective interaction between localized modes with spin-, orbital- and valley degrees of freedom emerging from the flat bands. The form of the interaction reflects the chiralilty and 1D nature of the network. We study this interacting model within an SU(4) mean-field theory, focusing on commensurate order stabilized by local two-site and chiral three-site interactions. By tuning gate voltage, one can trigger a non-coplanar phase characterized by a peculiar coexistence of three different types of order: ferromagnetic spin order in one valley, non-coplanar chiral spin order in the other valley and 120 degree order in remaining spin and valley-mixed degrees of freedom. Furthermore, quantum and classical fluctuations have qualitatively different effects on the observed phases and can, for example, create a finite spin-chirality purely via fluctuation effects. Finally, I will show that a twisted monolayer bilayer graphene is an excellent candidate for the realization of our moiré potential model.
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