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Performance analysis of graphene field effect transistor at nanoscale regime

Mahamudul Hassan Fuad, Md Faysal Nayan, Md. Arif Raihan, Rahbaar Yeassin, Russel Reza Mahmud

2024e-Prime - Advances in Electrical Engineering Electronics and Energy8 citationsDOIOpen Access PDF

Abstract

In this paper, we examine the response of charge carriers in a dual-gate graphene field-effect transistor (GFET). We have conducted an investigation into the input-output properties of both monolayer and bilayer graphene channels. Additionally, we demonstrated the relationship between surface potential and quantum capacitance using equivalent circuit modelling. We offer precise mathematical equations that define the border points separating distinct regions. These equations guarantee the continuity of the Jacobian matrix, which is crucial for the successful implementation of a circuit simulator. We can classify the current-voltage (I-V) characteristics of bilayer graphene into three distinct regions: triode, unipolar, and ambipolar. The equivalent circuit modelling findings indicated that GFETs had superior output characteristics and transconductance behavior compared to FETs. We observed a direct correlation between transconductance and gate voltage across various drain-to-source voltages.Nevertheless, with a higher gate voltage, there was a corresponding drop in the transconductance value. The threshold voltage for this dual-gate GFET is dependent on the back gate voltage. The GFET's threshold value decreased as the back gate voltage increased.

Topics & Concepts

TransconductanceQuantum capacitanceGrapheneAmbipolar diffusionMaterials scienceTriodeField-effect transistorVoltageOptoelectronicsTransistorThreshold voltageVoltage dropBilayer grapheneDrain-induced barrier loweringElectrical engineeringNanotechnologyPhysicsEngineeringCapacitorQuantum mechanicsPlasmaGraphene research and applicationsQuantum and electron transport phenomenaAdvancements in Semiconductor Devices and Circuit Design
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