Investigations on highly stable thermal characteristics of a dilute In_0.2Ga_0.8AsSb/GaAs doped-channel field-effect transistor

Abstract: This work reports for the first time a novel In 0.2 Ga 0.8 AsSb/GaAs heterostructure doped-channel field-effect transistor (DCFET) grown by the molecular beam epitaxy system. The interfacial quality within the InGaAsSb/GaAs quantum well of the DCFET device has been effectively improved by introducing surfactant-like Sb atoms during the growth of the Si-doped InGaAs channel layer. The improved device characteristics include the peak extrinsic transconductance (g m, max ) of 161.5 mS mm −1 , the peak drain-sourc… Show more

“…A variable HFET, i.e. doping-channel FET (DCFET), has been demonstrated to exhibit broad gate voltage swing for improving device linearity and reducing the higher order harmonic terms in linear amplifier applications [4,5]. The basic structure of DCFETs consists of a narrow bandgap doped material as the channel layer to enhance carrier conduction and a wide bandgap undoped (or low-doping) barrier layer as an 'insulator' to improve the gate Schottky characteristic.…”

Gate voltage swing enhancement of InGaP/InGaAs pseudomorphic HFET with low-to-high double doping channels

“…A variable HFET, i.e. doping-channel FET (DCFET), has been demonstrated to exhibit broad gate voltage swing for improving device linearity and reducing the higher order harmonic terms in linear amplifier applications [4,5]. The basic structure of DCFETs consists of a narrow bandgap doped material as the channel layer to enhance carrier conduction and a wide bandgap undoped (or low-doping) barrier layer as an 'insulator' to improve the gate Schottky characteristic.…”

Gate voltage swing enhancement of InGaP/InGaAs pseudomorphic HFET with low-to-high double doping channels

Influence of gate thermal oxide layer on InGaP/InGaAs doping-channel field-effect transistors

Investigation of InP/InGaAs metamorphic co-integrated complementary doping-channel field-effect transistors for logic application