Shangduan Wu scite author profile

In this paper, the average density of states (ADOS) with a binary alloy disorder in disordered graphene systems are calculated based on the recursion method. We observe an obvious resonant peak caused by interactions with surrounding impurities and an anti-resonance dip in ADOS curves near the Dirac point. We also find that the resonance energy (Er) and the dip position (ε dip ) are sensitive to the concentration of disorders (x) and their on-site potentials (v). An linear relation, ε dip =xv, not only holds when the impurity concentration is low but this relation can be further extended to high impurity concentration regime with certain constraints. We also calculate the ADOS with a finite density of vacancies and compare our results with the previous theoretical results.

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Shangduan Wu

Publisher's Note: Average density of states in disordered graphene systems [Phys. Rev. B77, 195411 (2008)]

Average density of states in disordered graphene systems

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