Improved diffusion-equation finite difference schema in numerical solution of the nonlinear Poisson equation

机译：非线性泊松方程数值解的改进的扩散方程有限差分格式

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In this work a numerical iterative method for solving the nonlinear Poisson equation has been developed with the use of the diffusion-equation (parabolic) finite difference schema, to describe semiconductor hetero-structures. Procedures to control the convergence and stability of the method are presented. The approach enables us to solve the nonlinear Poisson equation in a small number of iterations, regardless of the level of hetero-structure complexity, type of electrical contacts and passive dielectric layers. Some numerical results obtained by this method for nBn Hg1-xCdxTe hetero-structure infrared detectors with metal contacts are reported.

机译：在这项工作中，使用扩散方程（抛物线）有限差分方案开发了一种求解非线性泊松方程的数值迭代方法，以描述半导体异质结构。提出了控制该方法收敛性和稳定性的程序。该方法使我们能够通过少量迭代来求解非线性Poisson方程，而不管异质结构的复杂程度，电接触的类型和无源介电层如何。报道了通过这种方法获得的具有金属触点的nBn Hg1-xCdxTe异质结构红外探测器的一些数值结果。

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《International Conference on Numerical Simulation of Optoelectronic Devices》|2016年|165-166|共2页
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A. Jóźwikowska; K. Jóźwikowski;
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Poisson equations; Finite difference methods; Mathematical model; Electric potential; II-VI semiconductor materials; Cadmium compounds; Iterative methods;

机译：泊松方程有限差分法数学模型电势II-VI族半导体材料镉化合物迭代法;
入库时间 2022-08-26 15:28:04

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专利

1. Numerical solution of the nonlinear Poisson equation for semiconductor devices by application of a diffusion-equation finite difference scheme [J] . Alina Jozwikowska Journal of Applied Physics . 2008,第6期

机译：应用扩散方程有限差分格式的半导体器件非线性泊松方程数值解
2. Approximate solution of nonlinear Poisson equation by finite differences method [J] . ION AUREL CRISTESCU Romanian reports in physics . 2016,第2期

机译：非线性泊松方程的有限差分法近似解
3. Approximate solution of nonlinear Poisson equation by finite differences method [J] . ION AUREL CRISTESCU Romanian reports in physics . 2016,第2期

机译：非线性泊松方程的有限差分法近似解
4. Improved diffusion-equation finite difference schema in numerical solution of the nonlinear Poisson equation [C] . A. Jó?wikowska, K. Jó?wikowski International Conrference on Numerical Simulation of Optoelectronic Devices . 2016

机译：在非线性泊松方程的数值解中改进的扩散方程有限差分模式
5. Numerical solution for nonlinear Poisson -Boltzmann equations and numerical simulations for spike dynamics [D] . Qiao, Zhonghua 2006

机译：非线性Poisson-Boltzmann方程的数值解和峰值动力学的数值模拟
6. Comparing the Predictions of the Nonlinear Poisson-Boltzmann Equation and the Ion Size-Modified Poisson-Boltzmann Equation for a Low-Dielectric Charged Spherical Cavity in an Aqueous Salt Solution [O] . Alexander R.J. Silalahi, Alexander H. Boschitsch, Robert C. Harris, -1

机译：比较非线性Poisson-Boltzmann方程的预测和离子尺寸改性泊松 - Boltzmann方程在水溶液中的低介电带电球腔中
7. The Dirihlet problem for the fractional Poisson’s equation with Caputo derivatives: A finite difference approximation and a numerical solution [O] . Beibalaev V.D., Meilanov R.P. 2012

机译：具有Caputo导数的分数poisson方程的Dirihlet问题：有限差分近似和数值解
8. Exact Solutions to a Finite-Difference Model of a Nonlinear Reaction-Advection Equation Implications for Numerical Analysis. [R] . Mickens, R. E. 1989

机译：非线性反应 - 平流方程有限差分模型精确解的数值分析。

Improved diffusion-equation finite difference schema in numerical solution of the nonlinear Poisson equation

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