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Paper detail

Spontaneous Strains and Gap in Graphene on Boron Nitride

The interaction between a graphene layer and a hexagonal Boron Nitride (hBN) substrate induces lateral displacements and strains in the graphene layer. The displacements lead to the appearance of commensurate regions and the existence of an average gap in the electronic spectrum of graphene. We present a simple, but realistic model, by which the displacements, strains and spectral gap can be derived analytically from the adhesion forces between hBN and graphene. When the lattice axes of graphene and the substrate are aligned, strains reach a value of order 2\%, leading to effective magnetic fields above 100T. The combination of strains and induced scalar potential gives a sizeable contribution to the electronic gap. Commensuration effects are negligible, due to the large stiffness of graphene.

preprint2014arXivOpen access
Pablo San-JoseÁngel GutiérrezMauricio SturlaFrancisco Guinea
cond-mat.mes-hall
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Pablo San-JoseÁngel GutiérrezMauricio SturlaFrancisco Guinea

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