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Paper detail

Proposal for a magnetic field induced graphene dot

Quantum dots induced by a strong magnetic field applied to a single layer of graphene in the perpendicular direction are investigated. The dot is defined by a model potential which consists of a well of depth $ΔV$ relative to a flat asymptotic part and quantum states formed from the zeroth Landau level are considered. The energy of the dot states cannot be lower than $-ΔV$ relative to the asymptotic potential. Consequently, when $ΔV$ is chosen to be about half of the gap between the zeroth and first Landau levels, the dot states are isolated energetically in the gap between Landau level 0 and Landau level -1. This is confirmed with numerical calculations of the magnetic field dependent energy spectrum and the quantum states. Remarkably, an antidot formed by reversing the sign of $ΔV$ also confines electrons but in the energy region between Landau level 0 and Landau level +1. This unusual behaviour gives an unambiguous signal of the novel physics of graphene quantum dots.

preprint2010arXivOpen access
P. A. MaksymM. RoyM. F. CraciunM. YamamotoS. TaruchaH. Aoki
cond-mat.mes-hall
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P. A. MaksymM. RoyM. F. CraciunM. YamamotoS. TaruchaH. Aoki

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