A Scalable Compact Model for the Static Drain Current of Graphene FETs
The main target of this article is to propose for the first time a physics-based continuous and symmetric compact model that accurately captures I-V experimental dependencies induced by geometrical scaling effects for graphene field-effect transistor (GFET) technologies. Such a scalable model is an...
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| Published in | IEEE transactions on electron devices Vol. 71; no. 1; pp. 1 - 7 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.01.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9383 1557-9646 |
| DOI | 10.1109/TED.2023.3330713 |
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| Abstract | The main target of this article is to propose for the first time a physics-based continuous and symmetric compact model that accurately captures I-V experimental dependencies induced by geometrical scaling effects for graphene field-effect transistor (GFET) technologies. Such a scalable model is an indispensable ingredient for the boost of large-scale GFET applications, as it has been already proved in solid industry-based CMOS technologies. Dependencies of the physical model parameters on channel dimensions are thoroughly investigated, and semi-empirical expressions are derived, which precisely characterize such behaviors for an industry-based GFET technology, as well as for others developed in research laboratory. This work aims at the establishment of the first industry standard GFET compact model that can be integrated in circuit simulation tools and, hence, can contribute to the update of GFET technology from the research level to massive industry production. |
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| AbstractList | The main target of this article is to propose for the first time a physics-based continuous and symmetric compact model that accurately captures I-V experimental dependencies induced by geometrical scaling effects for graphene field-effect transistor (GFET) technologies. Such a scalable model is an indispensable ingredient for the boost of large-scale GFET applications, as it has been already proved in solid industry-based CMOS technologies. Dependencies of the physical model parameters on channel dimensions are thoroughly investigated, and semi-empirical expressions are derived, which precisely characterize such behaviors for an industry-based GFET technology, as well as for others developed in research laboratory. This work aims at the establishment of the first industry standard GFET compact model that can be integrated in circuit simulation tools and, hence, can contribute to the update of GFET technology from the research level to massive industry production. |
| Author | Torres, Elias Mavredakis, Nikolaos Jimenez, David Pacheco-Sanchez, Anibal Txoperena, Oihana |
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| Snippet | The main target of this article is to propose for the first time a physics-based continuous and symmetric compact model that accurately captures I-V... The main target of this article is to propose for the first time a physics-based continuous and symmetric compact model that accurately captures I–V... |
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| SubjectTerms | Circuit design Circuits compact model contact resistance Field effect transistors flat-band voltage geometrical scaling Graphene graphene field-effect transistor (GFET) mobility residual charge Semiconductor devices |
| Title | A Scalable Compact Model for the Static Drain Current of Graphene FETs |
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