A quantum solver for junctionless III-V quantum devices.

The aim of the PhD is to construct a quantum solver for investigating transport in highmobility two(three)-dimensional electron gases residing in the active areas of junctionless III-V structures and devices. A substantial effort will go into the numerical implementation of the quantum transport equation - e.g. the Wigner-Liouville equation - describing the steering quantum effects in the transport direction, the Schrödinger equation accounting for lateral quantum confinement, Poisson's equation fixing the local electrostatic potential and the constitutive equations yielding the densities and invoking a fully self-consistent coupling between all equations.

Keywords:CONDENSED MATTER PHYSICS, NANOWIRES, TRANSPORT PROPERTIES

Disciplines:Condensed matter physics and nanophysics

Project type:Collaboration project