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Ab-Initio Theory of Moiré Superlattice Bands in Layered Two-Dimensional Materials

When atomically thin two-dimensional (2D) materials are layered they often form incommensurate non-crystalline structures that exhibit long-period moir{\' e} patterns when examined by scanning probes. In this paper we present an approach which uses information obtained from {\it ab initio} calculations performed on short-period crystalline structures to derive effective Hamiltonians that are able to efficiently describe the influence of the moir{\' e} pattern superlattices on electronic properties. We apply our approach to the cases of graphene on graphene (G/G) and graphene on hexagonal boron nitride (G/BN), deriving explicit effective Hamiltonians that have the periodicity of the moir{\' e} pattern and can be used to calculate electronic properties of interest for arbitrary twist angles and lattice constants.

preprint2013arXivOpen access
Jeil JungArnaud RaouxZhenhua QiaoAllan H. MacDonald
cond-mat.mes-hall
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Jeil JungArnaud RaouxZhenhua QiaoAllan H. MacDonald

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