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Paper detail

Transport in finite graphene samples

We study the DC transport of finite graphene samples with random gap. Using Dirac fermions to describe the low-energy physics near the Dirac point, we employ a generalized Drude form for the conductivity. The latter is constant for a vanishing average gap but always decreases with increasing sample size for a nonzero average gap. The asymptotic conductivity of the infinite sample is either nonzero if the average gap is smaller than a critical value or zero otherwise. Our results are in agreement with recent numerical calculations of Bardarson et al..

preprint2010arXivOpen access
K. ZieglerA. Sinner
cond-mat.mes-hall
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K. ZieglerA. Sinner

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