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Single-Valley Engineering in Graphene Superlattices

The two inequivalent valleys in graphene preclude the protection against inter-valley scattering offered by an odd-number of Dirac cones characteristic of Z2 topological insulator phases. Here we propose a way to engineer a chiral single-valley metallic phase with quadratic crossover in a honeycomb lattice through tailored \sqrt{3}N *\sqrt{3}N or 3N *3N superlattices. The possibility of tuning valley-polarization via pseudo-Zeeman field and the emergence of Dresselhaus-type valley-orbit coupling are proposed in adatom decorated graphene superlattices. Such valley manipulation mechanisms and metallic phase can also find applications in honeycomb photonic crystals.

preprint2015arXivOpen access
Yafei RenXinzhou DengChangsheng LiJeil JungChanggan ZengZhenyu ZhangQian NiuZhenhua Qiao
cond-mat.mes-hallcond-mat.mtrl-sci
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Yafei RenXinzhou DengChangsheng LiJeil JungChanggan ZengZhenyu ZhangQian NiuZhenhua Qiao

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