Antichiral states in twisted graphene multilayers
M. Michael Denner, J. L. Lado, Oded Zilberberg
Abstract
The authors present a controllable procedure to realize anti-chiral states in solid-state systems, as well as in quantum engineered metamaterials. These states emerge by combining electronic Dirac-cone spectra of graphene multilayers through an in-plane magnetic field and inter-layer bias voltage.
Topics & Concepts
GrapheneCondensed matter physicsMaterials scienceQuantum dotField (mathematics)QuantumMagnetic fieldPhysicsSpectral lineFerromagnetismQuantum stateElectronic structureNanotechnologyGraphene nanoribbonsQuantum mechanicsOptoelectronicsTopological Materials and PhenomenaGraphene research and applications2D Materials and Applications