Jeil Jung, Fan Zhang, Zhenhua Qiao, Allan H. MacDonald
Published 2011-05-18Version 1
We report on a theoretical study of one-dimensional (1D) states localized at few-layer graphene system ribbon edges, and at interfaces between few-layer graphene systems with different valley Hall conductivities. These 1D states are topologically protected when valley mixing is neglected. We address the influence on their properties of stacking arrangement, interface structure, and external electric field perpendicular to the layers. We find that 1D states are generally absent at multilayer ribbon armchair direction edges, but present irrespective of crystallographic orientation at any internal valley-Hall interface of an ABC stacked multilayer.
Comments: 5 pages, 3 figures
Journal: Phys. Rev. B 84, 075418 (2011)
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Edge states and enhanced spin-orbit interaction at graphene/graphane interfaces
Edge states in graphene in magnetic fields -- a speciality of the edge mode embedded in the n=0 Landau band
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