@misc{10481/91614,
year = {2023},
month = {11},
url = {https://hdl.handle.net/10481/91614},
abstract = {We explore through numerical simulations the
possibility of exploiting 2-D materials (2DMs)-based field
effect transistors (FETs) as read-out devices for quantum
cascade (QC) detectors. For this purpose, a deep investigation
of the device parameter space has been performed
while considering different 2DMs as channel material, such
as graphene and transition metal dichalcogenides (TMDs),
considering both short- and long-channel devices. We find
that while graphene offers the highest current density for
a given impinging power, it shows higher OFF-currents
as compared to other solutions based on TMDs, which,
eventually, can represent a better choice for this particular
application.},
organization = {European Project ERC PEP2D under Contract 770047},
organization = {European Union’s Horizon 2020 Research and Innovation Program
under the grant agreements Graphene Flagship Core 3 under Contract
881603},
organization = {National Center for HPC, Big Data and
Quantum Computing (HPC) under Project CN00000013},
publisher = {Institute of Electrical and Electronics Engineers},
keywords = {2-D materials (2DMs)},
keywords = {Ballistic transport},
keywords = {Diffusive transport},
title = {Simulations of 2-D Materials-Based Field Effect Transistors for Quantum Cascade Detectors},
doi = {10.1109/TED.2023.3332073},
author = {Cannavó, Emmanuele and Marian, Damiano and González Marín, Enrique and Tredicucci, Alessandro and Fiori, Gianluca},
}