Comprehensive Power Gain Assessment of GaN-SOI-FinFET for Improved RF/Wireless Performance Using TCAD

Abstract: In this work, we present a radio frequency (RF) assessment of the nanoscale gallium nitride-silicon-on-insulator fin field-effect transistor (GaN-SOI-FinFET). All the performances of the device were compared with GaN-FinFET and conventional FinFET (Conv. FinFET) simultaneously. All the results show that the power gains significantly improved in terms of Gma, Gms, Stern stability factor (SS), GMT, and intrinsic delay in comparison with conventional FinFET. Current gain and unilateral power gain were also evalua… Show more

“…Furthermore, the variation in device power gains, i.e. the maximum available power gain, g ma , and maximum stable power gain, g ms , have been studied for a wide range of frequencies [32] and are shown in figures 11(a) and (b).…”

Realization of an ultra-scaled novel Ga₂O₃ FinFET for sub-terahertz applications

“…Furthermore, the variation in device power gains, i.e. the maximum available power gain, g ma , and maximum stable power gain, g ms , have been studied for a wide range of frequencies [32] and are shown in figures 11(a) and (b).…”

Realization of an ultra-scaled novel Ga₂O₃ FinFET for sub-terahertz applications

Fabrication and characterization of modulation-doped β-(AlxGa1−x)2O3/Ga2O3 tri-metal FET utilizing ultra-high vacuum deposition based on plasma-assisted molecular beam epitaxy

Performance Assessment of High-k SOI GaN FinFET with Different Fin Aspect Ratio for RF/Wireless Applications