Statistical properties of quantum transport through two-dimensional random-shaped quantum dots

The magnetoresistance of electrons in a two-dimensional array of dots has been investigated. The new commensurability oscillations were found when \(2 \mathrm{R}_{L}=\mathrm{d}\) and \(2 R_{L}=\mathrm{d} / 2\). The closed electron trajectories skipping inside the dot are responsible for these oscill

In this paper we review our recent study of coherent electronic properties of coupled twodimensional quantum dot arrays using numerical exact-diagonalization methods on a Mott-Hubbard type correlated tight-binding model. We predict the existence of a novel kind of persistent current in a two-dimensi

We have investigated the quantum transport properties of electrons through multiplemagnetic-barrier structures, where the magnetic barriers are created by depositing ferromagnetic stripes on top of a heterostructure. The transmission coefficient and currentdensity-voltage (J -V ) characteristic are