Title :
A new physics-based compact model for Bilayer Graphene Field-Effect Transistors
Author :
J. D. Aguirre-Morales;S. Frégonèse;C. Mukherjee;C. Maneux;T. Zimmer
Author_Institution :
CNRS, University of Bordeaux, IMS Laboratory UMR 5218, 351 Cours de la Libé
Abstract :
In this paper, a new compact model for Dual-Gate Bilayer Graphene Field-Effect Transistors is presented. The model uses a physics-based density of states (DOS) to compute the current and the charge. Moreover, the effect of back-gate biasing on the flatband voltage, residual carrier density and access resistances is implemented in the model for accurate description of the drain current. The developed large-signal compact model has been implemented in Verilog-A and its accuracy has been evaluated by comparison with measurements from the literature.
Keywords :
"Graphene","Integrated circuit modeling","Transistors","Quantum capacitance","Mathematical model","Photonic band gap","Electric fields"
Conference_Titel :
Solid State Device Research Conference (ESSDERC), 2015 45th European
Print_ISBN :
978-1-4673-7133-9
Electronic_ISBN :
2378-6558
DOI :
10.1109/ESSDERC.2015.7324743
