Monday, April 22, 2013

1304.5344 (Pablo San-Jose et al.)

Chiral networks in twisted graphene bilayers under interlayer bias    [PDF]

Pablo San-Jose, Elsa Prada
A twisted graphene bilayer exhibits a triangular Moir\'e pattern in the local stacking, that smoothly alternates between the three basic types AA', AB' and BA'. Under an interlayer bias U, the latter two types develop a spectral gap, characterised by opposite valley Chern numbers. We show that for large enough Moir\'e periods and bias (angles smaller than ~ 0.2 degrees at U ~ 90 meV) these regions become depleted electronically, and topologically protected chiral modes appear at their boundaries. This gives rise to a delocalised chiral network of the Chalker-Coddington type, composed of valley current vortices. Simultaneously, a discrete set of localised states at resonant energies develop. Clear signatures of this exotic electronic state are predicted to arise in the spectrum and the optical conductivity.
View original: http://arxiv.org/abs/1304.5344

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