Currently displaying 1 – 2 of 2

Showing per page

Order by Relevance | Title | Year of publication

A hybrid classical-quantum approach for ultra-scaled confined nanostructures : modeling and simulation

We propose a hybrid classical-quantum model to study the motion of electrons in ultra-scaled confined nanostructures. The transport of charged particles, considered as one dimensional, is described by a quantum effective mass model in the active zone coupled directly to a drift-diffusion problem in the rest of the device. We explain how this hybrid model takes into account the peculiarities due to the strong confinement and we present numerical simulations for a simplified carbon nanotube.

Page 1

Download Results (CSV)