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Quantum Hall Effects in a Non-Abelian Honeycomb Lattice

We study the tunable quantum Hall effects in a non-Abelian honeycomb optical lattice which is a many-Dirac-points system. We find that the quantum Hall effects present different features as change as relative strengths of several perturbations. Namely, a gauge-field-dressed next-nearest-neighbor hopping can induce the quantum spin Hall effect and a Zeeman field can induce a so-called quantum anomalous valley Hall effect which includes two copies of quantum Hall states with opposite Chern numbers and counter-propagating edge states. Our study extends the borders of the field of quantum Hall effects in honeycomb optical lattice when the internal valley degrees of freedom enlarge.

preprint2015arXivOpen access
Ling LiNingning HaoGuocai LiuZhiming BaiZai-Dong LiShu ChenWu-Ming Liu
cond-mat.mes-hallcond-mat.str-el
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Ling LiNingning HaoGuocai LiuZhiming BaiZai-Dong LiShu ChenWu-Ming Liu

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