A Complete Carrier-Based Non-Charge-Sheet Analytic Model for Nano-Scale Undoped Symmetric Double-Gate MOSFETs

2005 IEEE Conference on Electron Devices and Solid-State Circuits Pub Date : 2005-12-19 DOI:10.1109/EDSSC.2005.1635253

Jin He, Zhang Xing, Yangyuan Wang

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引用次数: 9

Abstract

A complete carrier-based non-charge-sheet analytic model for nano-scale undoped symmetric doublegate MOSFETs is presented in this paper. The formulation is based on the Poisson's equation to solve for the carrier (electron) concentration directly rather than relying on the surface potential alone. Therefore, the distribution of the potential, the field, and the charge density in the channel away from the surface is also expressed in terms of the carrier concentration, giving a complete carrier-based noncharge-sheet model for nano-scale undoped symmetric double-gate MOSFETs including the short-channel effects. The model formulation has an analytic form that does not need to solve for the transcendent equation as in the conventional surface potential model or classical Pao-Sah formulation. As a result, the model can analytically predict the analytical I-V and C-V characteristics of the undoped symmetric double-gate MOSFETs. The validity of the model results has also been demonstrated by the extensive comparison with the 2-D numerical simulation and experimental data.

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纳米尺度非掺杂对称双栅mosfet的完整载流子非电荷片分析模型

本文提出了一种完整的基于载流子的非电荷片分析模型。该公式是基于泊松方程直接求解载流子(电子)浓度，而不是仅仅依赖于表面电位。因此，在远离表面的沟道中，电势、场和电荷密度的分布也可以用载流子浓度来表示，从而给出了包含短沟道效应的纳米尺度无掺杂对称双栅mosfet的完整的载流子非电荷片模型。模型公式具有解析形式，不像传统的表面势模型或经典的Pao-Sah公式那样需要求解超越方程。结果表明，该模型可以解析地预测非掺杂对称双栅mosfet的解析I-V和C-V特性。通过与二维数值模拟和实验数据的比较，验证了模型结果的有效性。

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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来源期刊

2005 IEEE Conference on Electron Devices and Solid-State Circuits

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