Double Gates and Short-Channel Carbon Nanotube Transistors

International Journal of Electrical Engineering and Computer Science Pub Date : 2022-12-31 DOI:10.37394/232027.2022.4.14

Reza Akbarpourani, Hassan Ghalami Bavil Olyaee, Seyed Alireza Mousavi Shirazi

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Abstract

In this paper, through solving Poisson equations, a precise model for double-gates and dual-material carbon nanotube transistors is presented that is more comprehensive than the previous models. Thus, considering a double-gate transistor with a two-material gate, modeling and solving the Poisson equation are taken into consideration in two dimensions for a more accurate analysis of the inner potential of the channel. In this method, the inside electrostatic potential of the channel is obtained by summing two parts of the long channel potential. Also, the dependence of the inside load of the channel on its inside potential is considered in a way that gives a more accurate answer to the potential of the transistor. The potential is generally considered based on the sum of the one-dimensional potential in the channel (without any dependence on the surface potential) and the lateral potential changes in two dimensions. The charge in the Poisson relation is also considered to evaluate the dependence on the potential within the channel which provides a more complete analysis of the Poisson equation.

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双栅极和短通道碳纳米管晶体管

本文通过求解泊松方程，建立了双栅极双材料碳纳米管晶体管的精确模型，该模型比以往的模型更加全面。因此，考虑到具有双材料栅极的双栅晶体管，为了更准确地分析沟道的内部电位，在两个维度上考虑了泊松方程的建模和求解。在这种方法中，通道的内部静电势是由长通道电位的两部分之和得到的。此外，通道内部负载对其内部电势的依赖性也被考虑在某种程度上给出了晶体管电势的更准确答案。电势通常是基于通道内一维电势(不依赖于表面电势)和二维横向电势变化的总和来考虑的。泊松关系中的电荷也被考虑来评估对通道内势的依赖，这提供了对泊松方程的更完整的分析。

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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International Journal of Electrical Engineering and Computer Science

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