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URI permanente para esta coleçãohttps://repositorio.fei.edu.br/handle/FEI/798
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- Variability Modeling in Triple-Gate Junctionless Nanowire Transistors(2022-01-05) TREVISOLI, R.; Marcelo Antonio Pavanello; Rodrigo Doria; CAPOVILLA, C.E.; BARRAUD, S.; Michelly De SouzaIEEEThis work aims at proposing an analytical model for the variability of the threshold voltage and drain current in junctionless nanowire transistors. The model is continuous in all operation regions and has been validated through Monte Carlo simulations using a physically based drain current model and 3-D numerical simulations. A discussion about the influences of each variability source based on the proposed model is carried out. Finally, the modeled results are compared to the experimental data for a fully physical validation.
- Surface-potential-based drain current analytical model for triple-gate junctionless nanowire transistors(2012-01-05) TREVISOLI, R. D.; Rodrido Doria; Michelly De Souza; DAS, S.; FERAIN, I.; Marcelo Antonio PavanelloThis paper proposes a drain current model for triple-gate n-type junctionless nanowire transistors. The model is based on the solution of the Poisson equation. First, the 2-D Poisson equation is used to obtain the effective surface potential for long-channel devices, which is used to calculate the charge density along the channel and the drain current. The solution of the 3-D Laplace equation is added to the 2-D model in order to account for the short-channel effects. The proposed model is validated using 3-D TCAD simulations where the drain current and its derivatives, the potential, and the charge density have been compared, showing a good agreement for all parameters. Experimental data of short-channel devices down to 30 nm at different temperatures have been also used to validate the model. © 2012 IEEE.