Abdelhadi Belouad, Abdellatif Kamal, Rachid Houça, El Bouâzzaoui Choubabi, Mohammed El Bouziani
Published 2021-07-24Version 1
We investigate the propagation of electrons in a circular quantum dot of monolayer Molybdenium disulfide MoS_2, subjected to an electric potential. Using the continuum model, we present analytical expressions for the eigenstates, scattering coefficients, scattering efficiency, and radial component of the reflected current and electron density. We identify two scattering regimes as a function of physical parameters such as incident electronic energy, potential barrier, and quantum dot radius. For the incident electron low energy, we show that there is an appearance of scattering resonances. Also, we note that the Far-field scattered current has distinct preferred scattering directions.
Electron flow in Monolayer Molybdenum Disulfide Quantum Dot with Magnetic Flux
Landau quantization of a circular Quantum Dot using the BenDaniel-Duke boundary condition
Scattering in graphene with impurities : A low energy effective theory
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