Exploiting negative differential resistance in monolayer graphene FETs for high voltage gains

Antonio Gnudi; Elena Gnani; Giorgio Baccarani; Roberto Grassi; Susanna Reggiani; Valerio Di Lecce

arxiv: 1309.1105 · v2 · pith:ZMZR4RV4new · submitted 2013-09-04 · ❄️ cond-mat.mes-hall

Exploiting negative differential resistance in monolayer graphene FETs for high voltage gains

Roberto Grassi , Antonio Gnudi , Valerio Di Lecce , Elena Gnani , Susanna Reggiani , Giorgio Baccarani This is my paper

classification ❄️ cond-mat.mes-hall

keywords differentialfetsgraphenemonolayernegativeregionresistancevoltage

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Through self-consistent quantum transport simulations, we evaluate the RF performance of monolayer graphene FETs in the bias region of negative output differential resistance. We show that, compared to the region of quasi-saturation, a voltage gain larger than 10 can be obtained, at the cost of a decrease in the maximum oscillation frequency of about a factor of 1.5--3 and the need for a careful circuit stabilization.

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Exploiting negative differential resistance in monolayer graphene FETs for high voltage gains

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