圆柱形纳米线的势函数分析

Mahmoud Zangeneh, H. Aghababa, B. Forouzandeh
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引用次数: 0

摘要

本文给出了含有掺杂引起的外源电荷分布项的圆柱形纳米线中势函数的提取封闭表达式。这些表达式是由泊松-玻尔兹曼常微分方程的解导出的。利用纳米线内部各点的载流子浓度、温度和距离纳米线中轴线的距离,求解了该ODE。考虑外部电荷分布是本文的一个创新之处,因为以往的势能函数分析都假定没有外部电荷。最后,通过仿真对封闭表达式进行了验证。这些模拟说明了硅基圆柱形纳米线在离轴距离和环境温度方面的势函数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of potential function in cylindrical nanowires
This paper presents extracted closed-form expressions for the potential function in cylindrical nanowires in presence of extrinsic charge distribution term, arising from doping. These expressions are derived from the solution to Poisson-Boltzmann ordinary differential equation. This ODE has been solved in terms of intrinsic carrier concentration, temperature and the distance from the central axis of the nanowire in each point inside the wire. Considering extrinsic charge distribution is an innovation in this paper as there assumed to be no external charge in the potential function analysis in previous works. Finally, some simulations have been used to verify the closed-form expressions. These simulations illustrate the potential function of the silicon-based cylindrical nanowire in terms of the distance from its axes and the environmental temperature.
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