Abstract
In this article, the impact of high-K and low-K dielectric pockets on DC, analog/RF, and linearity performance parameters of dual material stacked gate oxide-dielectric pocket-tunnel field-effect transistor (DMSGO-DP-TFET) is investigated. In this regard, a stacked gate oxide (SiO2 + HfO2) with workfunction engineering is taken into consideration to improve the ON-state current (ION ), and suppress the ambipolar current (Iamb). To further improve the performance of the device, a high-K dielectric pocket (HfO2) is used at the drain-channel interface to suppress the Iamb, and at the source-channel interface a low-K dielectric pocket is used to improve the ION and analog/RF performance. Moreover, length of stacked gate segments (L1, L2, L3), pocket height, and thickness are optimized to attain better ION /IOFF ratio, and suppress the Iamb which helps to achieve higher gain and design of analog/RF circuits. The DMSGO-DP-TFET outperforms the dual material control gate-dielectric pocket-TFET (DMCG-DP-TFET) with SiO2 gate oxide and shows increment in ION /IOFF (∼ 4.23 times), 84 % increment in transconductance (gm), 136 % increment in cut-off frequency (fT ), 126 % increment in gain-bandwidth-product (GBP), and better linearity performance parametrs such as gm2 ,gm3, VIP2, VIP3 and IIP3 making the proposed device useful for low power and radio frequency applications.
Performance analysis of dual material junction accumulation mode tri gate junctionless SOI FET: Modeling and Simulation