阈下斜率
晶体管
电容
场效应晶体管
材料科学
排水诱导屏障降低
电气工程
光电子学
凝聚态物理
电压
物理
量子力学
电极
工程类
作者
Taiqi Hu,Tiedong Cheng,Yuan Lin,Tianfu Zhang
标识
DOI:10.1088/1361-6641/ac8db5
摘要
Abstract Negative capacitance (NC) devices hold great promise for improving subthreshold slope (SS). However, the theoretical exploration of the short-channel effect in NC and two-dimensional (2D) materials remains an ongoing challenge in device scaling. The present work demonstrates a double-gate MoS 2 negative capacitance field-effect transistor (MoS 2 DG-NCFET) with low power and near-zero drain-induced barrier lowering (DIBL) by exploring its design space considering the impact of various MoS 2 layers, with the aid of the developed 2D short-channel model containing the NC effect and numerical simulation. The proposed monolayer MoS 2 DG-NCFET model is solved by unifying the long and short channel models coupled with the one-dimensional Landau-Khalatnikov equation. The study indicates that a lower SS, considerable voltage saving ( V s a v i n g ), and even the ability to achieve zero DIBL are seen in monolayer MoS 2 devices when compared with those of non-2D MoS 2 , due to the combination of the atomic-scale thickness of channels and the double-gate structure. This study provides an insight for further reducing the feature size of ultralow power transistors.
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