Two-Dimensional Model of Fully Depleted Dual-Material-Gate Single-Halo SOI MOSFET

LI Zun-chao; JIANG Yao-lin; WU Jian-min

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Two-Dimensional Model of Fully Depleted Dual-Material-Gate Single-Halo SOI MOSFET

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- Two-Dimensional Model of Fully Depleted Dual-Material-Gate Single-Halo SOI MOSFET
- Acta Electronica Sinica Vol. 35, Issue 2, Pages: 212-215(2007)
- 作者机构：
  
  西安交通大学电子与信息工程学院,陕西,西安,710049
- 作者简介：
- 基金信息：
- DOI：
  CLC： TN386
- Published：2007
- 稿件说明：
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LI Zun-chao, JIANG Yao-lin, WU Jian-min. Two-Dimensional Model of Fully Depleted Dual-Material-Gate Single-Halo SOI MOSFET[J]. Acta Electronica Sinica, 2007, 35(2): 212-215.
DOI：

LI Zun-chao, JIANG Yao-lin, WU Jian-min. Two-Dimensional Model of Fully Depleted Dual-Material-Gate Single-Halo SOI MOSFET[J]. Acta Electronica Sinica, 2007, 35(2): 212-215. DOI：

摘要

为了抑制深亚微米SOI MOSFET的短沟道效应

并提高电流驱动能力

提出了异质栅单Halo SOI MOSFET器件结构

其栅极由具有不同功函数的两种材料拼接而成

并在沟道源端一侧引入Halo技术.采用分区的抛物线电势近似法和通用边界条件求解二维Poisson方程

为新结构器件建立了全耗尽条件下的表面势及阈值电压二维解析模型.对新结构器件与常规SOI MOSFET性能进行了对比研究.结果表明

新结构器件能有效抑制阈值电压漂移、热载流子效应和漏致势垒降低效应

并显著提高载流子通过沟道的输运速度.解析模型与器件数值模拟软件MEDICI所得结果高度吻合.

Abstract

A dual-material-gate single-halo SOI MOSFET was proposed to suppress the short channel effect and increase the current driving capacity of deep submicron SOI MOSFETs.The gate consists of two materials contacting laterally and with different work functions

and halo doping is used in the channel near the source.Using the multi-region parabola potential distribution and the universal boundary conditions

the two-dimensional analytical models of surface potential and threshold voltage for the novel device were derived by solving the two-dimensional Poisson's equation under the fully depleted condition.The characteristics of the novel device were studied as compared with the conventional SOI MOSFET.It was shown that the novel device could suppress threshold voltage roll-off

hot carrier and drain-induced barrier lowering effects efficiently

and increase carrier transport speed through the channel considerably.The analytical models are in very good agreement with two-dimensional device simulator MEDICI.

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