research10.1103/PhysRevB.86.155450

Renormalized transport properties of randomly gapped 2D Dirac fermions

Abstract

We investigate the scaling properties of the recently acquired fermionic non--linear $\sigma$--model which controls gapless diffusive modes in a two--dimensional disordered system of Dirac electrons beyond charge neutrality. The transport on large scales is governed by a novel renormalizable nonlocal field theory. For zero mean random gap, it is characterized by the absence of a dynamic gap generation and a scale invariant diffusion coefficient. The $\beta$ function of the DC conductivity, computed for this model, is in perfect agreement with numerical results obtained previously.Comment: Version published with minor change

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This paper was published in arXiv.org e-Print Archive.

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