Computational perspective on recent advances in quantum electronics: from electron quantum optics to nanoelectronic devices and systems
Quantum electronics has significantly evolved over the last decades. Where initially the clear
focus was on light–matter interactions, nowadays approaches based on the electron's wave …
focus was on light–matter interactions, nowadays approaches based on the electron's wave …
Some Electric, Thermal, and Thermoelectric Properties of Suspended Monolayer Graphene
G Mascali - SIAM Journal on Applied Mathematics, 2023 - SIAM
In this paper we investigate some electric, thermal, and thermoelectric properties of
suspended monolayer graphene. By means of a numerical experiment, which was made …
suspended monolayer graphene. By means of a numerical experiment, which was made …
Optimized quantum drift diffusion model for a resonant tunneling diode
The main aim of this work is to optimize a Quantum Drift Diffusion model (QDD)(V. Romano,
M. Torrisi, and R. Tracinà,“Approximate solutions to the quantum drift-diffusion model of …
M. Torrisi, and R. Tracinà,“Approximate solutions to the quantum drift-diffusion model of …
[PDF][PDF] Models for charge transport in semiconductors
G Vitanza - 2024 - tesidottorato.depositolegale.it
In the last years, the miniaturization of the electronic devices became a very challenging
topic. So, the mathematical models that describe transport phenomena in semiconductors …
topic. So, the mathematical models that describe transport phenomena in semiconductors …
An interface formulation for the Poisson equation in the presence of a semiconducting single-layer material
C Jourdana, P Pietra - ESAIM: Mathematical Modelling and …, 2024 - esaim-m2an.org
In this paper, we consider a semiconducting device with an active zone made of a single-
layer material. The associated Poisson equation for the electrostatic potential (to be solved …
layer material. The associated Poisson equation for the electrostatic potential (to be solved …