Abstract

We assess the analog/RF intrinsic performance of graphene FETs (GFETs) through a semiclassical transport model, including local and remote phonon scattering as well as band-to-band tunneling generation and recombination, validated by comparison with full quantum results over a wide range of bias voltages. We found that scaling is expected to improve the fT, and that scattering plays a role in reducing both the fT and the transconductance also in sub-100-nm GFETs. Moreover, we observed a strong degradation of the device performance due to the series resistances and source/drain to channel underlaps.

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