Nanowire

By Hong-Hyun Park1; Lang Zeng2; Matthew Buresh3; Siqi Wang1; Gerhard Klimeck1; Saumitra Raj Mehrotra1; Clemens Heitzinger1; Benjamin P Haley1

1. Purdue University 2. Peking University 3. Arizona State University

Simulate 3D nanowire transport in the effective mass approximation with phonon scattering and 3D Poisson self-consistent solution

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Version 3.05 - published on 09 Nov 2021

doi:10.21981/QVXN-1H95 cite this

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    Walters Shane

    4.0 out of 5 stars

    For my master's thesis, I've been conducting experiments with nanowire. This tool has been a fantastic learning experience, revealing previously unknown aspects of how nanoscaled FETs function. The closeness of the comparison with experimental data was encouraging and spurred the researchers on. 

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    Osama Munir Nayfeh

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    Saumitra Raj Mehrotra

    5.0 out of 5 stars

    I have been using nanowire for research as a part of my Masters thesis. Working with this tool has been a great experience with new insights into working of nanoscaled FETs. Comparison with experimental results was pretty close which gave an impetus to carry forward the research. Eg. Variation of threshold voltage with diameter ~5nm predicted by nanowire to be 33-49mV/nm is near to the experimentally reported result of 35 mV/nm by N. Singh et al at IEDM, Dec 2006. Also various optimization and comparative studies provided interesting results. One of the works led to conference paper -“Process Variation Study for Silicon Nanowire Transistors” presented at WMED, Boise, April 2007. I acknowledge the huge computational load managed and the user-friendly interface maintained by the nanohub team.

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    Jing Wang

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    Petrica Cristea

    5.0 out of 5 stars

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