beta-Ga2O3 Double Gate Junctionless FET with an Efficient Volume Depletion Region

Abstract

This paper presents a new eta-Ga2O3 junctionless double gate Metal-Oxide-Field-Semiconductor-Effect-Transistor (etaDG-JL-FET) that a P+ packet embedded in the oxide layer (PO-etaDG-JL-FET) for high-voltage applications. Our goal is to achieve an efficient volume depletion region by placing a P+ layer of silicon. We show that the proposed structure has a subthreshold swing ~ 64 mV/decade and it suppressed the band to band tunneling (BTBT) phenomenon. Also, the PO-etaDG-JL-FET structure has a high Ion/Ioff ~ 1.3e15. The embedded layer reduces the off-current (IOFF) by ~ 10-4, while the on-current (ION) reduces slightly. Besides, we show that the proposed structure has acceptable Ioff value in a range of gate work functions which help us to the optimization of designs in terms of area, power gain, and leakage current. The leakage current of the proposed structure is ~ 7e-17 A in 400 K temperature. Furthermore, the fabrication process steps of the proposed structure will be investigated.