Temperature sensitivity analysis of SGO metal strip JL TFET

Abstract

Temperature sensitivity is one of the major concern in conventional stacked gate-oxide junctionless tunnel-field-effect transistor (SGO-JL-TFET). In this regard, the authors have investigated the sensitivity toward the temperature variation of the SGO-JL double-gate TFET with low work-function live strip (LWLS-SGO-JL-TFET) and without LWLS-SGO-JL-TFET (SGO-JL-TFET). Furthermore, they have analysed and compared the impact of operating temperature variation on the DC, analogue/radiofrequency and linearity performances of both the devices with the help of simulation results obtained using technology computer-aided design tool. It can be stated that the proposed device is less sensitive toward the temperature variation in terms of carrier concentration, electric field, on-state current and off-state current, as compared with conventional SGO-JL-TFET. Apart from these parameters, proposed device also demonstrates better temperature sensitivity in terms of analogue performance parameters such as transconductance ( g m ) cut-off frequency ( f T ) , gain bandwidth product and maximum oscillating frequency ( f max ) . Therefore, the proposed device can be a potential candidate for cryogenics and high-temperature applications.