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Valley Hall Effect and Non-Local Resistance in Locally Gapped Graphene

We report on the emergence of bulk, valley-polarized currents in graphene-based devices, driven by spatially varying regions of broken sublattice symmetry, and revealed by non-local resistance ($R_\mathrm{NL}$) fingerprints. By using a combination of quantum transport formalisms, giving access to bulk properties as well as multi-terminal device responses, the presence of a non-uniform local bandgap is shown to give rise to valley-dependent scattering and a finite Fermi surface contribution to the valley Hall conductivity, related to characteristics of $R_\mathrm{NL}$. These features are robust against disorder and provide a plausible interpretation of controversial experiments in graphene/hBN superlattices. Our findings suggest both an alternative mechanism for the generation of valley Hall effect in graphene, and a route towards valley-dependent electron optics, by materials and device engineering.

preprint2021arXivOpen access
Thomas AktorJose H. GarciaStephan RocheAntti-Pekka JauhoStephen R. Power
cond-mat.mes-hall
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Thomas AktorJose H. GarciaStephan RocheAntti-Pekka JauhoStephen R. Power

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