Self-consistent simulation of quantum wires in periodic heterojunction structures

Recent experimental studies on quantum wires subjected to a doubly-corrugated gate displayed periodic oscillations in the weak field magneto-resistance [ 11. The presence of peaks in the magneto-resistance were associated with speczjic ballistic backscattered trajectories that were highly sample (a

The procedure of self-consistent calculation of excitonic states in T-shaped quantum wires is developed. The part of the exciton wave function describing an electron motion in the plane perpendicular to the wire direction and a term describing motion of a hole and the relative electron-hole motion i

A method for the self-consistent calculation of rectangular free-standing quantum wires is presented. The method is also used for the electronic structure calculation of cladded quantum wires. It relies on the wavefunction's Fourier expansion, and uses the structure symmetry to save computation time