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Invited paper: modeling of nanoscale MOSFET using MATLAB

Quantum and high-field effects present in a nanoscale MOSFET are modeled and data processed using MATLAB. The drift response to the electric field is modeled after the intrinsic velocity that is shown to be the ultimate limit to the saturation velocity in a very high electric field. The ballistic in...

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Bibliographic Details
Main Author: Arora, Vijay K.
Format: Book Section
Published: Institute of Electrical and Electronics Engineers 2009
Subjects:
TK Electrical engineering. Electronics Nuclear engineering
Online Access:http://eprints.utm.my/id/eprint/12910/
http://dx.doi.org/10.1109/AMS.2009.21
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spelling my.utm.129102011-07-05T10:06:42Z http://eprints.utm.my/id/eprint/12910/ Invited paper: modeling of nanoscale MOSFET using MATLAB Arora, Vijay K. TK Electrical engineering. Electronics Nuclear engineering Quantum and high-field effects present in a nanoscale MOSFET are modeled and data processed using MATLAB. The drift response to the electric field is modeled after the intrinsic velocity that is shown to be the ultimate limit to the saturation velocity in a very high electric field. The ballistic intrinsic velocity arises from the fact that randomly oriented velocity vectors in zero electric field are streamlined and become unidirectional. The presence of a quantum emission lowers the saturation velocity. The drain carrier velocity is revealed to be smaller than the saturation velocity due to the presence of the finite electric field at the drain of a MOSFET. The velocity so obtained is considered in modeling the current-voltage characteristics of a MOSFET channel in the inversion regime and excellent agreement is obtained with the experimental data on an 80-nm channel. Institute of Electrical and Electronics Engineers 2009 Book Section PeerReviewed Arora, Vijay K. (2009) Invited paper: modeling of nanoscale MOSFET using MATLAB. In: Proceedings - 2009 3rd Asia International Conference on Modelling and Simulation, AMS 2009. Institute of Electrical and Electronics Engineers, New York, pp. 739-744. ISBN 978-076953648-4 http://dx.doi.org/10.1109/AMS.2009.21 doi:10.1109/AMS.2009.21
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TK Electrical engineering. Electronics Nuclear engineering
spellingShingle TK Electrical engineering. Electronics Nuclear engineering
Arora, Vijay K.
Invited paper: modeling of nanoscale MOSFET using MATLAB
description Quantum and high-field effects present in a nanoscale MOSFET are modeled and data processed using MATLAB. The drift response to the electric field is modeled after the intrinsic velocity that is shown to be the ultimate limit to the saturation velocity in a very high electric field. The ballistic intrinsic velocity arises from the fact that randomly oriented velocity vectors in zero electric field are streamlined and become unidirectional. The presence of a quantum emission lowers the saturation velocity. The drain carrier velocity is revealed to be smaller than the saturation velocity due to the presence of the finite electric field at the drain of a MOSFET. The velocity so obtained is considered in modeling the current-voltage characteristics of a MOSFET channel in the inversion regime and excellent agreement is obtained with the experimental data on an 80-nm channel.
format Book Section
author Arora, Vijay K.
author_facet Arora, Vijay K.
author_sort Arora, Vijay K.
title Invited paper: modeling of nanoscale MOSFET using MATLAB
title_short Invited paper: modeling of nanoscale MOSFET using MATLAB
title_full Invited paper: modeling of nanoscale MOSFET using MATLAB
title_fullStr Invited paper: modeling of nanoscale MOSFET using MATLAB
title_full_unstemmed Invited paper: modeling of nanoscale MOSFET using MATLAB
title_sort invited paper: modeling of nanoscale mosfet using matlab
publisher Institute of Electrical and Electronics Engineers
publishDate 2009
url http://eprints.utm.my/id/eprint/12910/
http://dx.doi.org/10.1109/AMS.2009.21
_version_ 1643646067332349952
score 13.160551

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