A Surface Potential and Current Model for Polarity-Controllable Silicon Nanowire FETs

Zhang, Jian; Gaillardon, Pierre-Emmanuel; De Micheli, Giovanni

doi:10.1109/ESSDERC.2015.7324710

Zhang, Jian; Gaillardon, Pierre-Emmanuel; De Micheli, Giovanni

2015

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Abstract

Silicon nanowire FET (SiNWFET) with dynamic polarity control has been experimentally demonstrated and has shown large potential in circuit applications. To fully explore its circuit-level opportunities, a physics-based compact model of the polarity-controllable SiNWFET is required. Therefore, in this paper, we extend the solution for conventional SiNWFETs to polarity-controllable SiNWFETs. By solving the current continuity equation, the potential distribution and drain current is obtained. The model shows good aoreement with TCAD simulation. It can be used as the core to develop the complete compact model for polarity-controllable SiNWFETs.

Details

Title A Surface Potential and Current Model for Polarity-Controllable Silicon Nanowire FETs

Author(s) Zhang, Jian ; Gaillardon, Pierre-Emmanuel ; De Micheli, Giovanni

Published in Proceedings of the 45th European Solid-State Device Conference (ESSDERC)

Conference 45th European Solid-State Device Conference (ESSDERC), Graz, Austria, September 14-18, 2015

Date 2015

ISBN 978-1-4673-7133-9

DOI https://doi.org/10.1109/ESSDERC.2015.7324710

Laboratories LSI1

Record Appears in Scientific production and competences > I&C - School of Computer and Communication Sciences > IINFCOM > LSI1 - Integrated Systems Laboratory 1 (STI/IC)
Conference Papers
Work produced at EPFL
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Record creation date 2015-09-08

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