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(Referência obtida automaticamente do Web of Science, por meio da informação sobre o financiamento pela FAPESP e o número do processo correspondente, incluída na publicação pelos autores.)

Drain current model for short-channel triple gate junctionless nanowire transistors

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Autor(es):
Paz, B. C. ; Casse, M. ; Barraud, S. ; Reimbold, G. ; Faynot, O. ; Avila-Herrera, F. ; Cerdeira, A. ; Pavanello, M. A.
Número total de Autores: 8
Tipo de documento: Artigo Científico
Fonte: MICROELECTRONICS RELIABILITY; v. 63, p. 1-10, AUG 2016.
Citações Web of Science: 4
Resumo

This work proposes a numerical charge-based new model to describe the drain current for triple gate junctionless nanowire transistors (3G JNT). The drain current is obtained through a numerical integration of a single expression that physically describes the junctionless charge density in both accumulation and depletion regimes of operation, leading to a continuous model in all operational regions. The triple gate structure is modeled from an evolution of a previous model designed for double gate junctionless nanowire transistors (2G JNT). Improvements concerning the capacitance coupling, the internal potential changing while reducing the fin height in nanowire transistors and higher immunity to short-channel effects (SCE) are considered. The model validation is performed through both tridimensional numerical simulation and experimental measurements for long and short-channel devices. Through simulated results, it is verified the agreement of the modeled curves for junctionless transistors with different values of fin height. Comparison between the proposed model and experimental data is performed for 3G JNT advanced structures with channel length down to 15 nm and fin height of 8 nm. Results for 3G JNTS with different values of doping concentration and channel width are also displayed showing a good agreement as well. Moreover, 3G JNT performance is also analyzed and compared in the studied structures by extracting the threshold voltage (V-TH), subthreshold slope (S), DIBL and model parameters. (C) 2016 Elsevier Ltd. All rights reserved. (AU)

Processo FAPESP: 14/13816-1 - Modelagem, caracterização elétrica e extração de parâmetros elétricos de transistores MOS sem junções
Beneficiário:Bruna Cardoso Paz
Modalidade de apoio: Bolsas no Exterior - Estágio de Pesquisa - Mestrado
Processo FAPESP: 12/24377-3 - Modelagem de nanofios transistores mos sem junções de porta dupla e tripla
Beneficiário:Bruna Cardoso Paz
Modalidade de apoio: Bolsas no Brasil - Mestrado