基于涉及Riemann Zeta函数的Adamchik和Srivastava求和公式的Flint Hills和Cookson Hills级数收敛性的发现

Carlos Hernán López Zapata
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摘要

本文展示了解决两个著名的级数微积分问题的重大进展:Flint Hills和Cookson Hills级数。近二十年来,一个长期存在的问题一直没有得到解答。主要地,证明Flint Hills级数的收敛性将对π的无理数测度上界的重新定义产生重大影响。本文给出的结果之一是,Flint Hills级数收敛于30.3144…重新定义了π的无理度测度的上界,即μ(π)≤2.5。这个作品提出了一种转变,解决了弗林特山和库克森山系列的奥秘。它是基于数学家Adamchik和Srivastava开发的一个求和公式。通过利用黎曼ζ函数支持的专门系列,这种方法成功地将原始的Flint Hills和Cookson Hills系列转换为具有独特意义的新颖收敛版本。与这些级数相连的结果序列是正有界的,满足收敛性。此外,本文还推广了余弦函数具有任意复数参数n+iβ时,当i=√(-1)时的Flint Hills级数,建立了基于多元对数〖Li〗_3 (e^i2k)的新的级数表示,其中k=1,2,3,…,e为欧拉数,其发现与著名的玻色-爱因斯坦分布积分相似。这是弗林特山级数和多对数之间前所未有的联系。此外,还建立了apsamry常数与Flint Hills和Cookson Hills系列之间的关系。本文介绍了一种基于Riemann Zeta函数和由Adamchik和Srivastava求和公式导出的对数表达式的新方法,在级数演算中取得了重大突破。该方法扩展了级数收敛准则的分析,解决了以突然跳跃为特征的模糊情况。因此,弗林特山系列收敛到30.3144…库克森山系列赛的比分是42.9949正如本文所证明的那样。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Finding on Convergence of the Flint Hills and Cookson Hills Series based on a Summation Formula of Adamchik and Srivastava involving the Riemann Zeta Function
This article showcases significant progress in solving two renowned problems in the calculus of series: the Flint Hills and Cookson Hills series. For almost twenty years, a long-standing question has remained unanswered in regard to their convergence. Mainly, proving the convergence of the Flint Hills series would significantly impact the redefinition of the upper bound for the irrationality measure of the number π. One of the results presented in this article is that the Flint Hills series converges to 30.3144... which leads to a redefinition of the upper bound for the irrationality measure of π, specifically μ(π)≤ 2.5. This work proposes a transformation that solves the mystery of the Flint Hills and Cookson Hills series. It is based on a summation formula developed by mathematicians Adamchik and Srivastava. By leveraging a specialized series supported by the Riemann zeta function, this approach successfully transforms the original Flint Hills and Cookson Hills series into novel convergent versions with unique significance. The resulting sequences linked to these series are positive and bounded and satisfy convergence. Moreover, this article extends the Flint Hills series when the cosecant function has an arbitrary complex argument n+iβ, with i=√(-1), establishing a new series representation based on the polylogarithm 〖Li〗_3 (e^i2k), with k=1,2,3,…, e the Euler’s number, which bears resemblance to the famous integral of the Bose-Einstein distribution as a relevant finding. This is a never-seen-before link between the Flint Hills series and polylogarithms. Furthermore, a relationship between the Apéry constant and the Flint Hills and Cookson Hills series has been established. This article presents a significant breakthrough in the calculus of series by introducing a new method based on the Riemann Zeta function and logarithmical expressions derived from the Adamchik and Srivastava summation formula. The novel approach extends the analysis of convergence criteria for series, addressing ambiguous cases characterized by abrupt jumps. Thus, the Flint Hills series converges to 30.3144... and the Cookson Hills series to 42.9949... as proved in this article.
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