Marwan Hossain scite author profile

GaN-based double gate metal-oxide semiconductor fieldeffect transistors (DG-MOSFETs) in sub-10 nm regime have been designed for the next generation logic applications. To rigorously evaluate the device performance, non-equilibrium Green's function formalism are performed using SILVACO ATLAS. The device is turn on at gate voltage, V GS =1 V while it is going to off at V GS = 0 V. The ON-state and OFFstate drain currents are found as 12 mA/μm and ~10-8 A/μm, respectively at the drain voltage, V DS = 0.75 V. The subthreshold slope (SS) and drain induced barrier lowering (DIBL) are ~69 mV/decade and ~43 mV/V, which are very compatible with the CMOS technology. To improve the figure of merits of the proposed device, source to gate (S-G) and gate to drain (G-D) distances are varied which is mentioned as underlap. The lengths are maintained equal for both sides of the gate. The SS and DIBL are decreased with increasing the underlap length (L UN ). Though the source to drain resistance is increased for enhancing the channel length, the underlap architectures exhibit better performance due to reduced capacitive coupling between the contacts (S-G and G-D) which minimize the short channel effects. Therefore, the proposed GaN-based DG-MOSFETs as one of the excellent promising candidates to substitute currently used MOSFETs for future high speed applications.

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Gate Length Engineering Impact of Sub-10 nm GaN-Based DG-MOSFETs

Hasan

Rafa

Hossain

et al. 2017

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Design and Performance Analysis: Lightning Protection-Marking of Air Terminals and Down Conductor-Perspective of Bangladesh

Hasan

Islam

Hossain

et al. 2019

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Marwan Hossain

Metal Gate Work Function Engineering: Sub-Nano Regime Double Gate MOSFETs

Projected Performance of Sub-10 nm GaN-based Double Gate MOSFETs

Gate Length Engineering Impact of Sub-10 nm GaN-Based DG-MOSFETs

Design and Performance Analysis: Lightning Protection-Marking of Air Terminals and Down Conductor-Perspective of Bangladesh

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