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Energy Levels of Gapped Graphene Quantum Dot in Magnetic Field

We study the energy levels of carriers confined in a magnetic quantum dot of graphene surrounded by a infinite graphene sheet in the presence of energy gap. The eigenspinors are derived for the valleys $K$ and $K'$, while the associated energy levels are obtained by using the boundary condition at interface of the quantum dot. We numerically investigate our results and show that the energy levels exhibit the symmetric and antisymmetric behaviors under suitable conditions of the physical parameters. We find that the radial probability can be symmetric or antisymmeric according to the angular momentum is null or no-null. Finally, we show that the application of an energy gap decreases the electron density in the quantum dot, which indicates a temporary trapping of electrons.

preprint2020arXivOpen access
Abderrahim FarsiAbdelhadi BelouadAhmed Jellal
cond-mat.mes-hallquant-ph
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Abderrahim FarsiAbdelhadi BelouadAhmed Jellal

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