CAMIOLA, VITO DARIO
CAMIOLA, VITO DARIO
MATEMATICA E INFORMATICA
2DEG-3DEG charge transport model for MOSFET based on the Maximum Entropy Principle
2013-01-01 Camiola, V. D.; Romano, Vittorio
Bipolar Hydrodynamical Model for Charge Transport in Graphene Nanoribbons
2022-01-01 Camiola, V. D.; Nastasi, G.
Charge Transport in Low Dimensional Semiconductor Structures - The Maximum Entropy Approach
file da validare2020-01-01 Camiola, VITO DARIO; Mascali, Giovanni; Romano, Vittorio
Direct Simulation of Charge Transport in Graphene Nanoribbons
2022-01-01 Nastasi, G; Camiola, Vd; Romano, V
Equilibrium wigner function for fermions and bosons in the case of a general energy dispersion relation
2020-01-01 Camiola, V. D.; Luca, L.; Romano, V.
Hydrodynamical Model for Charge Transport in Graphene
file da validare2014-01-01 Camiola, V. D.; Romano, Vittorio
Hydrodynamical Model for Charge Transport in Graphene Nanoribbons: Confinement and Edge Scattering Effects
2021-01-01 Camiola, V. D.; Nastasi, G.
MATHEMATICAL STRUCTURE OF THE TRANSPORT EQUATIONS FOR COUPLED 2D-3D ELECTRON GASSES IN A MOSFET.
file da validare2013-01-01 Camiola, V. D.; Romano, Vittorio
Numerical simulation of a double-gate MOSFET with a subband model for semiconductors based on the maximum entropy principle
file da validare2012-01-01 Camiola, V. D.; Mascali, G; Romano, Vittorio
Optimized Hydrodynamical Model for Charge Transport in Graphene
2022-01-01 Camiola, Vd; Nastasi, G; Romano, V; Vitanza, G
QUANTUM BGK MODEL FOR ELECTRON TRANSPORT IN SEMICONDUCTORS
file da validare2010-01-01 Camiola, D; Romano, V
Quantum Energy-Transport and Drift-Diffusion Models for Electron Transport in Graphene An Approach by The Wigner Function
file da validare2021-01-01 Camiola, VITO DARIO; Mascali, Giovanni; Romano, Vittorio
Quantum energy-transport and drift-diffusion models for electron transport in graphene: an approach by the wigner function
2021-01-01 Camiola, V. D.; Mascali, G.; Romano, V.
Simulation of a double-gate MOSFET by a non-parabolic energy-transport subband model for semiconductors based on the maximum entropy principle
file da validare2013-01-01 Camiola, V. D.; Mascali, G; Romano, Vittorio
Simulation of charge transport in graphene nano-ribbons with a model based on MEP
file da validare2013-01-01 Camiola, V. D.; Romano, Vittorio
Subbands model for semiconductors based on the Maximum Entropy Principle
2012-12-10 Camiola, VITO DARIO
Wigner Equations for Phonons Transport and Quantum Heat Flux
2023-01-01 Camiola, V. D.; Romano, V.; Vitanza, G.