Quantum transport in novel Chalker–Coddington model

We propose a novel quantum transport model applicable to multi-dimensional practical submicron devices. The quantum effects are successfully represented in terms of quantum mechanically corrected potential in the classical Boltzmann equation.

We present a systematic study of the magnetic field induced metal-insulator transition in quasi-three-dimensional wide quantum wells by numerical calculations. Depending on carrier density and carrier mobility we observe both a change from metal to insulator-like temperature dependence as well as a

In this paper we introduce a phenomenology for inserting dissipation into the singleparticle Schrödinger equation for carrier transport by utilizing appropriate nonHermitian additions to the Hamiltonian. The nonHermitian terms are determined by incorporating model particle trapping/de-trapping, mome

We study one-dimensional transport in focused-ion-beam written in-plane-gate transistors on III-V heterostructures at moderately low temperatures at zero bias without any external magnetic field applied. In accordance with a recent proposal of A. Gold and L. Calmels, 'Valley-and spin-occupancy insta