@misc{10481/82887,
year = {2023},
month = {6},
url = {https://hdl.handle.net/10481/82887},
abstract = {NanoTCAD ViDES (Versatile DEvice Simulator) is an open-source suite of computing codes aimed at assessing the operation
and the performance of nanoelectronic devices. It has served the computational nanoelectronic community for almost two
decades and it is freely available to researchers around the world in its website (http://vides.nanotcad.com), being employed
in hundreds of works by many electronic device simulation groups worldwide. We revise the code structure and its main
modules and we present the new features directed towards (i) multi-scale approaches exploiting ab-initio electron-structure
calculations, aiming at the exploitation of new physics in electronic devices, (ii) the inclusion of arbitrary heterostructures
of layered materials to devise original device architectures and operation, and (iii) the exploration of novel low-cost, green
technologies in the mesoscopic scale, as, e.g. printed electronics.},
organization = {Università di Pisa within
the CRUI-CARE},
organization = {ERC PEP2D (contract No. 770047},
organization = {Italian Ministry of Education and Research (MIUR) in the framework
of the FoReLab project (Departments of Excellence)},
publisher = {Springer Nature},
keywords = {NanoTCAD ViDES},
keywords = {Multi-scale approaches},
keywords = {Non-equilibrium Green functions},
keywords = {Open Source},
keywords = {Nanoelectronics},
keywords = {Elastic transport},
keywords = {Dissipative transport},
keywords = {Drift-diffusion},
keywords = {Printed-devices},
title = {Multi‑scale simulations of two dimensional material based devices: the NanoTCAD ViDES suite},
doi = {10.1007/s10825-023-02048-2},
author = {Marian, Damiano and González Marín, Enrique},
}