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Paper detail

Gate-controlled conductance enhancement from quantum Hall channels along graphene p-n junctions

The formation of quantum Hall channels inside the bulk of graphene is studied using various contact and gate geometries. p-n junctions are created along the longitudinal direction of samples, and enhanced conductance is observed in the case of bipolar doping due to new conducting channels forming in the bulk, whose position, propagating direction and, in one geometry, coupling to electrodes are determined by the gate-controlled filling factor across the device. This effect could be exploited to probe the behavior and interaction of quantum Hall channels protected against uncontrolled scattering at the edges.

preprint2016arXivOpen access
Endre TóváriPéter MakkMing-Hao LiuPeter RickhausZoltán Kovács-KrauszKlaus RichterChristian SchönenbergerSzabolcs Csonka
cond-mat.mes-hall
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Endre TóváriPéter MakkMing-Hao LiuPeter RickhausZoltán Kovács-KrauszKlaus RichterChristian SchönenbergerSzabolcs Csonka

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