Green's functions of the first and second boundary value problems for the Laplace equation in the nonclassical domain

Q3 Computer Science Radioelectronic and Computer Systems Pub Date : 2022-11-29 DOI:10.32620/reks.2022.4.03
O. Nikolaev, O. Holovchenko, Nina Savchenko
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引用次数: 1

Abstract

The subject of study is the Green's functions of the first and second boundary value problems for the Laplace equation. The study constructs the Green's functions of the first and second boundary value problems for the Laplace equation in space with a spherical segment in analytical form, as well as numerical analysis of these functions. Research task: to formalize the problem of determining Green's functions for the specified domain; using methods of Fourier, pair summation equations and potential theory to reduce mixed boundary value problems for auxiliary harmonic functions to a system of equations that has an analytical solution; investigate the compatibility of the algebraic system for determining constants of integration; formulate and prove a theorem about the jump of the normal derivative of the potential of a simple layer on the surface of a segment, with the help of which to present the Green's function in the form of the potential of a simple layer; conduct a numerical experiment and identify algorithms and areas of changing the parameters of effective calculations; analyze the behavior of Green's functions. Scientific novelty: for the first time, Green's functions of Dirichlet and Neumann boundary value problems for the Laplace equation in three-dimensional space with a spherical segment were constructed in analytical form, the obtained results were substantiated, and a comprehensive numerical experiment was conducted to analyze the behavior of these functions. The obtained results: mixed boundary value problems in the interior and exterior of the spherical surface to which the segment belongs are set for the auxiliary harmonic functions; using the Fourier method, the problem is reduced to systems of paired equations in series by Legendre functions, the solutions of which are found using discontinuous Mehler-Dirichlet sums. The specified functions are obtained in an explicit view in two forms: series based on the basic harmonic functions in spherical coordinates and the potential of a simple layer on the surface of the segment. To substantiate the results, the lemma on the compatibility of the algebraic system for determining the constants of integration and the theorem on the jump of the normal derivative of the potential of a simple layer on a segment are proved. A numerical experiment was conducted to analyze the behavior of the constructed functions. Conclusions: the analysis of numerical values of Green's functions obtained by different algorithms showed that the highest accuracy of results outside the surface of the segment was obtained when using images of Green's functions in the form of series. On the basis of the calculations, the lines of the level of the Green's functions of two boundary value problems in the plane of the singular point, as well as the graphs of the potential density of the simple layer for the Dirichlet problem and the potential jump for the Neumann problem on the segment at different locations of the singular point were constructed. In the partial case of the location of a singular point at the origin of the coordinates, the potential of the electrostatic field of a point charge near a conductive grounded thin shell in the form of a spherical segment is found. The main characteristics of such a field are found in closed form.
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非经典域拉普拉斯方程一、二阶边值问题的格林函数
本文研究的是拉普拉斯方程一、二阶边值问题的格林函数。本文以解析形式构造了空间球面段拉普拉斯方程一、二阶边值问题的格林函数,并对这些函数进行了数值分析。研究任务:形式化确定特定域格林函数的问题;利用傅立叶、对和方程和势理论等方法,将辅助调和函数的混合边值问题简化为具有解析解的方程组;研究确定积分常数的代数系统的相容性构造并证明了简单层势的法向导数在线段表面上的跳跃定理,并利用该定理将格林函数表示为简单层势的形式;进行数值实验,确定算法和改变有效计算参数的区域;分析格林函数的行为。科学新颖性:首次以解析形式构造了三维空间球面段拉普拉斯方程的Dirichlet和Neumann边值问题的Green函数,并对所得结果进行了证实,并进行了全面的数值实验,分析了这些函数的行为。得到的结果是:对辅助调和函数在线段所属的球面内外设置了混合边值问题;利用傅里叶方法,将问题简化为由勒让德函数串联的成对方程组,用不连续的梅勒-狄利克雷和求其解。指定函数以两种形式在显式视图中得到:基于球坐标中基本调和函数的级数和线段表面上简单层的势。为了证明这些结果,证明了确定积分常数的代数系统的相容引理和段上简单层势的法向导数的跳变定理。通过数值实验分析了所构造函数的行为。结论:通过对不同算法得到的Green’s函数的数值分析表明,以序列形式使用Green’s函数图像时,得到的线段表面外的结果精度最高。在此基础上,构造了两个边值问题在奇异点平面上的格林函数水平线,以及狄利克雷问题的简单层势密度图和诺依曼问题的势跃图在奇异点不同位置的线段上。在坐标原点处有奇异点的部分情况下,得到了导电接地薄壳附近的点电荷的静电场的位势。这种场的主要特征是封闭的。
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来源期刊
Radioelectronic and Computer Systems
Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
3.60
自引率
0.00%
发文量
50
审稿时长
2 weeks
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