Your search keyword '"Digamma function"' showing total 4 results

1. Rational approximations for values of the digamma function and a denominators conjecture

Author

Pilehrood, Khodabakhsh Hessami and Pilehrood, Tatiana Hessami

Subjects

Mathematics - Number Theory

Abstract

In 2007, A.I.Aptekarev and his collaborators discovered a sequence of rational approximations to Euler's constant $\gamma$ defined by a linear recurrence. In this paper, we generalize this result and present an explicit construction of rational approximations for the numbers $\ln(b)-\psi(a+1),$ $a, b\in {\mathbb Q},$ $b>0, a>-1,$ where $\psi$ defines the logarithmic derivative of the Euler gamma function. We prove exact formulas for denominators and numerators of the approximations in terms of hypergeometric sums. As a consequence, we get rational approximations for the numbers $\pi/2\pm\gamma.$ We compare the results obtained with those of T. Rivoal for the numbers $\gamma+\ln(b)$ and prove denominators conjectures proposed by Rivoal for denominators of rational approximations for $\gamma+\ln(b)$ and common denominators of simultaneous approximations for the numbers $\gamma$ and $\zeta(2)-\gamma^2.$, Comment: 19 pages, in Russian

Published

2010

2. On a Double Series Representation of $\pi$

Author

E. Galushina

Subjects

Weierstrass $\wp$-function, Jacobi theta-function, $\pi$, Mathematics, QA1-939

Abstract

This paper proposes a new representation of $\pi$ as a double series. This representation follows from the relation between the Weierstrass $\wp$-function and the Jacobi theta-function. In the beginning of the paper we give definitions of the classical Weierstrass $\wp$-function and Jacobi theta-function. In the beginning of 1980s Italian mathematician P.Zappa attempted to generalize $\wp$-function to multidimensional spaces using methods of multidimensional complex analysis. Using the Bochner-Martinelli kernel he found a generalizationof the $\wp$-function with properties similar to the classical one-dimensional $\wp$-function, and and analog of the identity that connects the $\wp$-function and a certain theta-function of several variables. This identity involves a constant given by an integral representation that also holds in the one-dimensional case. Computing this constant in one-dimensional case by two different methods, namely, using the integral representation and using known series whose sums involve the digamma function, we obtain a representation of $\pi$ as an absolutely convergent double series. We have performed computational experiments to estimate the rate of convergence of this series. Although it is not fast, hopefully, the proposed representation will be useful in fundamental studies in the field of mathematical analysis and number theory.

Published

2016

3. MONOTONICITY AND CONVEXITY PROPERTIES OF THE NIELSEN’S β-FUNCTION

Author

Kwara Nantomah

Subjects

Nielsen’s β-function, Laplace transform for convolutions, completely monotonic function, convex function, GAconvex function, inequality, Mathematics, QA1-939

Abstract

The Nielsen’s β-function provides a powerful tool for evaluating and estimating certain integrals, series and mathematical constants. It is related to other special functions such as the digamma function, the Euler’s beta function and the Gauss’ hypergeometric function. In this work, we prove some monotonicity and convexity properties of the function by employing largely the convolution theorem for Laplace transforms.

Published

2017

4. ОБ ОДНОМ ПРЕДСТАВЛЕНИИ ЧИСЛА π В ВИДЕ ДВОЙНОГО РЯД

Subjects

℘-ФУНКЦИЯ ВЕЙЕРШТРАССА,ТЭТА-ФУНКЦИЯ ЯКОБИ,ЧИСЛО π,WEIERSTRASS ℘-FUNCTION,JACOBI THETA-FUNCTION,π

Abstract

Предлагается новое представление числа π в виде двойного ряда, которое следует из связи ℘-функции Вейерштрасса и тэта-функции Якоби. Даются определения классических ℘-функции Вейерштрасса, тэта-функции Якоби. В начале 1980-х гг. итальянский математик П. Заппа попытался обобщить ℘-функцию на пространства большей размерности, пользуясь методами многомерного комплексного анализа. С помощью ядра Бохнера Мартинелли им было найдено такое обобщение, что свойства обобщенной ℘-функции напоминают свойства классической одномерной ℘-функции, а также многомерный аналог тождества, связывающего ℘-функцию и тэта-функцию многих переменных. Данное тождество содержит постоянную, для которой есть интегральное представление, верное и в одномерном случае. Вычисляя в одномерном случае данную константу разными способами: при помощи интегрального представления, и пользуясь известными рядами, суммы которых выражаются через дигамма функцию, нами было получено представление числа π в виде абсолютно сходящегося двойного ряда. Были проведены компьютерные эксперименты для оценки скорости сходимости данного ряда. Хоть она оказалась и невысокой, возможно, данное представление будет полезно в фундаментальных исследованиях по математическому анализу и теории чисел., In the beginning of the paper we give definitions of the classical Weierstrass ℘-function and Jacobi theta-function. In the beginning of 1980s Italian mathematician P. Zappa attempted to generalize ℘-function to multidimensional spacesusing methods of multidimensional complex analysis. Using the Bochner Martinelli kernel he found a generalization of the ℘-function with properties similar to the classical one-dimensional ℘-function, and and analog of the identity that connects the ℘-function anda certain theta-function of several variables. This identity involves a constant given by an integral representation that also holds in the one-dimensional case. Computing this constant in one-dimensional case by two different methods, namely, using the integral representation and using known series whosesums involve the digamma function, we obtain a representation of π as an absolutely convergent double series. We have performed computational experiments to estimate the rate of convergence of this series. Although it is not fast, hopefully, the proposed representation will be useful in fundamental studies in the field of mathematical analysis and number theory.

Published

2016