Mobility Extraction Assessment in GAA Si NW JL FETs with Cross-Section Down to 5 nm

Mobility Extraction Assessment in GAA Si NW JL FETs with Cross-Section Down to 5 nm

Najmzadeh, Mohammad; Sallese, Jean-Michel; Berthome, Matthieu; Grabinski, Wladek; Ionescu, Adrian M.

2013

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Résumé

In this paper, we report for the first time, assessment on mobility extraction in equilateral triangular gate-all-around Si nanowire junctionless (JL) nMOSFETs with cross-section down to 5 nm. This analysis was performed in accumulation regime, as a first step, addressing bias-dependency of various key MOSFET parameters (e. g. series resistance, channel width and gate-channel capacitance), non-uniform electron density due to corners and quantization. A significant bias-dependent series resistance variation in JL MOSFETs is reported above flat-band, leading to a significant mobility extraction accuracy drop of similar to 50%. All quasistationary device simulations were done on 100 nm long channel devices with 5-20 nm NW width, 2 nm SiO2 gate oxide thickness and 1x10(19) cm(-3) n-type channel doping using a constant mobility model (100 cm(2)/V.s).

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Titre Mobility Extraction Assessment in GAA Si NW JL FETs with Cross-Section Down to 5 nm

Auteur(s) Najmzadeh, Mohammad ; Sallese, Jean-Michel ; Berthome, Matthieu ; Grabinski, Wladek ; Ionescu, Adrian M.

Publié dans 2013 14Th International Conference On Ultimate Integration On Silicon (Ulis)

Pagination 4

Série International Conference on Ultimate Integration on Silicon

Pages 106-109

Présenté à 14th International Conference on Ultimate Integration on Silicon (ULIS)

Date 2013

Editeur New York, IEEE

ISSN 2330-5738

ISBN 978-1-4673-4802-7

Mots-clés (libres)

Si nanowire; Multi-gate; Mobility extraction; Corner effect; Junctionless; Accumulation; TCAD simulation

DOI https://doi.org/10.1109/ULIS.2013.6523512

Autres identifiant(s) Afficher la publication dans Web of Science

Laboratoires NANOLAB
EDLAB

Le document apparaît dans Production scientifique et compétences > STI - Faculté des sciences et techniques de l'ingénieur > IEM - Institute of Electrical and Micro Engineering > NANOLAB - Laboratoire des dispositifs nanoélectroniques
Production scientifique et compétences > STI - Faculté des sciences et techniques de l'ingénieur > IEM - Institute of Electrical and Micro Engineering > EDLAB - Group of Electron Device Modeling and Technology
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Date de création de la notice 2013-12-09

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