An Accurate and Verilog-A Compatible Compact Model for Graphene Field-Effect Transistors

An Accurate and Verilog-A Compatible Compact Model for Graphene Field-Effect Transistors

The present paper provides an accurate drift-diffusion model of the graphene field-effect transistor (GFET). A precise yet mathematically simple current-voltage relation is derived by focusing on device physics at energy levels close to the Dirac point. With respect to previous work, our approach ex...

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Veröffentlicht in:IEEE transactions on nanotechnology 2014-09, Vol.13 (5), p.895-904
Hauptverfasser: Landauer, Gerhard Martin, Jimenez, David, Gonzalez, Jose Luis
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
circuit simulators
Circuits electrònics
Compatibility
current saturation
current-voltage relation
Devices
Dirac point
drain current
drift-diffusion model
Electric potential
energy levels
Enginyeria electrònica
Field effect transistors
GFET-based integrated circuit design
Graphene
graphene field-effect transistor
Integrated circuit modeling
intrinsic gain
Logic gates
low-voltage biasing regime
Mathematical model
Mathematical models
Nanotechnology
Nanotecnologia
output conductance
Quantum capacitance
Semiconductor devices
transconductance
Verilog-A compatible compact model
Àrees temàtiques de la UPC
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Beschreibung
Zusammenfassung:The present paper provides an accurate drift-diffusion model of the graphene field-effect transistor (GFET). A precise yet mathematically simple current-voltage relation is derived by focusing on device physics at energy levels close to the Dirac point. With respect to previous work, our approach extends modeling accuracy to the low-voltage biasing regime and improves the prediction of current saturation. These advantages are highlighted by a comparison study of the drain current, transconductance, output conductance, and intrinsic gain. The model has been implemented in Verilog-A and is compatible with conventional circuit simulators. It is provided as a tool for the exploration of GFET-based integrated circuit design. The model shows good agreement with measurement data from GFET prototypes.
ISSN:1536-125X
1941-0085
DOI:10.1109/TNANO.2014.2328782