Impact of the mole fraction modulation on the RF/DC performance of GaAs_1−xSb_x FinFET

Abstract: The impact of mole fraction variation on the RF/DC performance of GaAs 1Àx Sb x -based FinFET has been examined in this study. Changing the Sb mole fraction has substantial effect on the electronic band parameters of GaAs, which directly affects the device performance. Electrical properties of the device including electron density and mobility fluctuation are investigated as a function of Sb mole fraction. Additionally, device DC performance parameters such as the I ON /I OFF ratio, threshold voltage, transcon… Show more

“…The change in cavity's permittivity is used to mimic the presence/absence of the biomolecules. In this work, we have selected value of mole fraction (x) to be 0.3 to realize GaAs 0.7 Sb 0.3 for achieving superior electrical performance and attain fabrication feasibility, as explained in our previous publication [25,26]. All the relevant parameters employed in simulation have been mentioned in figure 2 and table 1 unless stated otherwise.…”

Biomolecule detection using GaAs_1−xSb_X FET based dielectric modulated label-free biosensor

“…The change in cavity's permittivity is used to mimic the presence/absence of the biomolecules. In this work, we have selected value of mole fraction (x) to be 0.3 to realize GaAs 0.7 Sb 0.3 for achieving superior electrical performance and attain fabrication feasibility, as explained in our previous publication [25,26]. All the relevant parameters employed in simulation have been mentioned in figure 2 and table 1 unless stated otherwise.…”

Biomolecule detection using GaAs_1−xSb_X FET based dielectric modulated label-free biosensor

Investigation of geometrical impact on a P+ buried negative capacitance SOI FET

Demonstration of Geometrical Impact of Nanowire on GaAs_1–x Sb _x Transistor Performance