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Journal of Computational Electronics
Published in: Journal of Computational Electronics 2/2016

04-04-2016

Analytical modeling of threshold voltage for symmetrical silicon nano-tube field-effect-transistors (Si-NT FETs)

Authors: Pramod Kumar Tiwari, Visweswara Rao Samoju, Thandva Sunkara, Sarvesh Dubey, Satyabrata Jit

Published in: Journal of Computational Electronics | Issue 2/2016

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Abstract

In this paper, an analytical model of the threshold voltage for short-channel symmetrical silicon nano-tube field-effect-transistors (Si-NT FETs) is presented. The three-dimensional (3D) Poisson equation in cylindrical coordinates has been solved with suitable boundary conditions to find the surface potential along the channel length. The inversion charge density \((Q_{inv} )\) has been calculated in the channel region of the device in the subthreshold regime of device operation, using the Boltzmann relationship. Subsequently, the calculated inversion charge density \((Q_{inv} )\) has been equated to a threshold charge density \((Q_{th})\) in order to find the threshold voltage \((V_{th})\) expression. The effect of physical device parameters, including the tube thickness, on the threshold voltage and drain induced barrier lowering (DIBL) of the device has been discussed. The model results have been verified with the simulation data obtained by the device simulation software ATLAS.
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next article Two-dimensional analytical model of threshold voltage and drain current of a double-halo gate-stacked triple-material double-gate MOSFET

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Metadata
Title
Analytical modeling of threshold voltage for symmetrical silicon nano-tube field-effect-transistors (Si-NT FETs)
Authors
Pramod Kumar Tiwari
Visweswara Rao Samoju
Thandva Sunkara
Sarvesh Dubey
Satyabrata Jit
Publication date
04-04-2016
Publisher
Springer US
Published in
Journal of Computational Electronics / Issue 2/2016
Print ISSN: 1569-8025
Electronic ISSN: 1572-8137
DOI
https://doi.org/10.1007/s10825-016-0819-0

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