Relations Between the Matrix Algebraic Factorized Type Solutions at Different Singular Points for Generalized Hypergeometric Functions of Type p+1Fp

Applied Numerical Analysis & Computational Mathematics Pub Date : 2005-07-21 DOI:10.1002/anac.200410037

Metin Demi̇ralp, Gülşen Taşkin

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Abstract

Recently we have presented a matrix algebraic factorization scheme for multiplicative representations of generalized hypergeometric functions of type _p+1F_p. The Method uses exponential functions with matrix arguments. We have shown that factorization is possible around any kind of point, regular or singular, and the constant matrices appearing in the argument of the exponential functions. According to the theory of linear ordinary differential equations, a series solution constructed around a point converges in the disk centered at that point with a radius equal to the difference from that point to the nearest singularity of the differential equation under consideration. Although we do not use an additive series solution, it is not hard to show that the same convergence property is expected from the factorized solutions. This paper contains the construction of the matrices transforming one evolution matrix at a singular point to another. This is done for all singularities located at z = 0, z = 1 and infinity. (© 2005 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

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p+1Fp型广义超几何函数不同奇点处矩阵代数分解型解的关系

本文给出了一类p+1Fp型广义超几何函数的乘法表示的矩阵代数分解格式。该方法使用带矩阵参数的指数函数。我们证明了在任何类型的点上，不论是正则点还是奇异点，以及在指数函数的辐角中出现的常数矩阵周围，因子分解是可能的。根据线性常微分方程理论，围绕某一点构造的级数解收敛于以该点为中心的圆盘，其半径等于该点到所考虑的微分方程最近奇点的差值。虽然我们没有使用加性级数解，但不难证明从分解解中期望得到相同的收敛性。本文讨论了将一个演化矩阵在奇点处转化为另一个演化矩阵的矩阵构造。这适用于位于z = 0, z = 1和无穷处的所有奇点。(©2005 WILEY-VCH Verlag GmbH &KGaA公司，Weinheim)

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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Applied Numerical Analysis & Computational Mathematics

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