Simulation Study of a Junctionless Double Gate Tunnel Field Effect Transistor in 20nm Channel Length

2018 International Conference on Applied Electromagnetics, Signal Processing and Communication (AESPC) Pub Date : 2018-10-01 DOI:10.1109/AESPC44649.2018.9033364

S. S. Mohanty, Pradipta Dutta, J. K. Das

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Abstract

In this paper, a Junctionless Double Gate Tunnel FET (JL- DGTFET) has been designed and the performance is analyzed using Sentaurus 2D simulation technique. In JLT, uniform and heavy doping concentration is taken all over the source, channel and drain regions. Like TFET, tunneling in junctionless tunnel field effect transistor (JLTFET) also occurs due to BTBT mechanism. This paper comprehensively presents the novel architecture of the JL-DGFET which shows much promise in resolving the certain important issues related to the limitations of the conventional MOSFET and CMOS industry. From dc analysis of JL-DGTFET, high ON-current about ~10-3Amp and very low OFF-current about ~10-6 Amp are obtained which signify very low leakage currents and high ON-to-OFF current ratio. JLFET is usually popular due to lesser number of fabrication steps and less production cost comparing to other contemporary logic devices. Here device is simulated with the variation of different gate dielectric constant, gate and drain biases.

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20nm通道长度无结双栅隧道场效应晶体管的仿真研究

本文设计了一种无结双栅隧道场效应管(JL- DGTFET)，并利用Sentaurus二维仿真技术对其性能进行了分析。在JLT中，在源区、通道区和漏区都采用均匀而重的掺杂浓度。在无结隧道场效应晶体管(JLTFET)中，由于BTBT机制，也会发生隧穿现象。本文全面介绍了JL-DGFET的新结构，它在解决传统MOSFET和CMOS工业的某些重要问题方面显示出很大的希望。通过对JL-DGTFET的直流分析，得到了约~10-3Amp的高通流和约~10-6 Amp的极低关流，这意味着极低的漏电流和高的通断电流比。与其他当代逻辑器件相比，JLFET通常由于较少的制造步骤和更低的生产成本而受到欢迎。本文模拟了不同栅极介电常数、栅极和漏极偏置的变化情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 International Conference on Applied Electromagnetics, Signal Processing and Communication (AESPC)

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