Dissipative Quantum Hall Effect in Graphene near the Dirac Point
Abstract
We report on the unusual nature of nu=0 state in the integer quantum Hall effect (QHE) in graphene and show that electron transport in this regime is dominated by counter-propagating edge states. Such states, intrinsic to massless Dirac quasiparticles, manifest themselves in a large longitudinal resistivity rhoxx > h/e2, in striking contrast to rhoxx behavior in the standard QHE. The nu=0 state in graphene is also predicted to exhibit pronounced fluctuations in rhoxy and rhoxx and a smeared zero Hall plateau in sigmaxy, in agreement with experiment. The existence of gapless edge states puts stringent constraints on possible theoretical models of the nu=0 state.
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