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Absence of a metallic phase in charge-neutral graphene with a random gap

It is known that fluctuations in the electrostatic potential allow for metallic conduction (nonzero conductivity in the limit of an infinite system) if the carriers form a single species of massless two-dimensional Dirac fermions. A nonzero uniform mass $\bar{M}$ opens up an excitation gap, localizing all states at the Dirac point of charge neutrality. Here we investigate numerically whether fluctuations $δM \gg \bar{M} \neq 0$ in the mass can have a similar effect as potential fluctuations, allowing for metallic conduction at the Dirac point. Our negative conclusion confirms earlier expectations, but does not support the recently predicted metallic phase in a random-gap model of graphene.

preprint2010arXivOpen access
J. H. BardarsonM. V. MedvedyevaJ. TworzydloA. R. AkhmerovC. W. J. Beenakker
cond-mat.mes-hall
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J. H. BardarsonM. V. MedvedyevaJ. TworzydloA. R. AkhmerovC. W. J. Beenakker

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