On solvability of the Dirichlet and Neumann boundary value problems for the Poisson equation with multiple involution

Pub Date : 2021-12-01 DOI:10.35634/vm210409

B. Turmetov, V. Karachik

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Abstract

Transformations of the involution type are considered in the space $R^l$, $l\geq 2$. The matrix properties of these transformations are investigated. The structure of the matrix under consideration is determined and it is proved that the matrix of these transformations is determined by the elements of the first row. Also, the symmetry of the matrix under study is proved. In addition, the eigenvectors and eigenvalues of the matrix under consideration are found explicitly. The inverse matrix is also found and it is proved that the inverse matrix has the same structure as the main matrix. The properties of the nonlocal analogue of the Laplace operator are introduced and studied as applications of the transformations under consideration. For the corresponding nonlocal Poisson equation in the unit ball, the solvability of the Dirichlet and Neumann boundary value problems is investigated. A theorem on the unique solvability of the Dirichlet problem is proved, an explicit form of the Green's function and an integral representation of the solution are constructed, and the order of smoothness of the solution of the problem in the Hölder class is found. Necessary and sufficient conditions for the solvability of the Neumann problem, an explicit form of the Green's function, and the integral representation are also found.

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多重对合泊松方程的Dirichlet和Neumann边值问题的可解性

在空间$R^l$, $l\geq 2$中考虑对合型变换。研究了这些变换的矩阵性质。确定了所考虑的矩阵的结构，并证明了这些变换的矩阵是由第一行元素决定的。并证明了所研究矩阵的对称性。此外，还明确地求出了所考虑的矩阵的特征向量和特征值。求出逆矩阵，并证明逆矩阵与主矩阵具有相同的结构。作为所考虑的变换的应用，引入并研究了拉普拉斯算子的非局部类似性质。对于单位球中相应的非局部泊松方程，研究了Dirichlet和Neumann边值问题的可解性。证明了Dirichlet问题唯一可解性的一个定理，构造了Green函数的显式形式和解的积分表示，得到了该问题在Hölder类中解的光滑阶数。给出了Neumann问题可解的充分必要条件、Green函数的显式形式和积分表示。

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