双材料双栅TFET在高k材料叠层异质介质中的二维建模

2022 IEEE International Conference of Electron Devices Society Kolkata Chapter (EDKCON) Pub Date : 2022-11-26 DOI:10.1109/EDKCON56221.2022.10032942

Dipshika Das, Pradip Kumar Ghosh, Rudra Sankar Dhar

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引用次数: 0

摘要

本文建立了双材料双栅极TFET的解析模型，包括栅极工程，采用高K介电介质的异质介质栅极堆。利用电荷势的抛物线近似方法求解二维泊松方程。栅极的介电层由SiO2和拆分的高k材料组成。本研究将各种高k介电体叠加在介电体上，发现其对带间隧穿、OFF和on电流、能带弯曲和漏极电流的影响。很明显，所提出的器件结构提供了低关断电流(10-17 a /µm)并增强了导通电流。利用SILVACO ATLAS仿真软件对数值结果进行了模拟。

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Two dimensional modeling of dual material double gate TFET in stacked hetero-dielectrics with split high-K materials

this article develops the analytical modelling of a dual material double gate TFET including gate engineering using a hetero–dielectric gate stack with split high K dielectrics. The parabolic approximation method of charge potential is used to solve 2D Poisson equation. The dielectric stack of gate consists of SiO2 and split high–K materials. The study incorporates the effect of various high-K dielectrics stacked above dielectric and find its influences on band to band tunneling, OFF and ON currents, energy band bending and drain currents. It is evident that the proposed device structure offers a low OFF current (10-17 A/µm) and enhances the ON current. The numerical results are simulated using SILVACO ATLAS simulation software.

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2022 IEEE International Conference of Electron Devices Society Kolkata Chapter (EDKCON)

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