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Paper detail

Magnetic field induced charge redistribution in disordered graphene double quantum dots

We have studied the transport properties of a large graphene double quantum dot under the influence of background disorder potential and magnetic field. At low temperatures, the evolution of the charge-stability diagram as a function of B-field is investigated up to 10 Tesla. Our results indicate that the charging energy of quantum dot is reduced, and hence the size of the dot increases, at high magnetic field. We provide an explanation of our results using a tight-binding model, which describes the charge redistribution in a disordered graphene quantum dot via the formation of Landau levels and edge states. Our model suggests that the tunnel barriers separating different electron/hole puddles in a dot become transparent at high B-fields, resulting in the charge delocalization and reduced charging energy observed experimentally.

preprint2015arXivOpen access
K. L. ChiuM. R. ConnollyA. CrestiJ. P. GriffithsG. A. C. JonesC. G. Smith
cond-mat.mes-hall
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K. L. ChiuM. R. ConnollyA. CrestiJ. P. GriffithsG. A. C. JonesC. G. Smith

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