A Unified Charge-current VS Compact Model for Graphene Transistors Applicable in Analog Circuit Simulations

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With its rich physics, graphene has properties that make it a viable candidate for implementing electronic devices. For example, graphene as a two-dimensional material has a limited phase space for scattering of electrons; hence, the electrons in graphene can have a long MFP–a property that can be utilized to build high frequency devices , . However, to design and simulate electronic circuits built with graphene transistors, compact device models are needed to describe electron transport in both long and short-channel graphene field effect transistors (GFETs). Authors: S. Rakheja, H. Wang, D. Antoniadis Sponsorship: NSF Network for Computational Nanotechnology NEEDS Node Category: Circuits & Systems, Electronic Devices Tags: dimitri antoniadis, shaloo rakheja Print This Page Download as PDF

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تاریخ انتشار 2017