Twisting dirac fermions: circular dichroism in bilayer graphene

Twisting dirac fermions: circular dichroism in bilayer graphene

Twisted bilayer graphene is a chiral system which has been recently shown to present circular dichroism. In this work we show that the origin of this optical activity is the rotation of the Dirac fermions' helicities in the top and bottom layer. Starting from the Kubo formula, we obtain a compa...

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Veröffentlicht in:2d materials 2017-09, Vol.4 (3), p.35015
Hauptverfasser: Suárez Morell, E, Chico, Leonor, Brey, Luis
Format: Artikel
Sprache:eng
Schlagworte:
circular dichroism
graphene
twisted Bilayers
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Zusammenfassung:Twisted bilayer graphene is a chiral system which has been recently shown to present circular dichroism. In this work we show that the origin of this optical activity is the rotation of the Dirac fermions' helicities in the top and bottom layer. Starting from the Kubo formula, we obtain a compact expression for the Hall conductivity that takes into account the dephasing of the electromagnetic field between the top and bottom layers and gathers all the symmetries of the system. Our results are based in both a continuum and a tight-binding model, and they can be generalized to any two-dimensional Dirac material with a chiral stacking between layers.
ISSN:2053-1583
2053-1583
DOI:10.1088/2053-1583/aa7eb6