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Related papers: Some recursive formulas for Selberg-type integrals

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Algorithms for numerical computation of symmetric elliptic integrals of all three kinds are improved in several ways and extended to complex values of the variables (with some restrictions in the case of the integral of the third kind).…

Classical Analysis and ODEs · Mathematics 2015-06-26 Bille C. Carlson

As a generalization of Hermite interpolation problem, Birkhoff interpolation is an important subject in numerical approximation. This paper generalizes the existing Generalized Recursive Polynomial Interpolation Algorithm (GRPIA) that is…

Numerical Analysis · Mathematics 2026-01-29 Xue Jiang , Yuanhe Li , Zhe Li

A recursion formula is derived which allows to evaluate invariant integrals over the orthogonal group O(N), where the integrand is an arbitrary finite monomial in the matrix elements of the group. The value of such an integral is…

Mathematical Physics · Physics 2009-11-07 Thomas Gorin

In this paper we present a combinatorial proof of Selberg's integral formula. We start by giving a bijective proof of a Theorem about the number of topological orders of a certain related directed graph. Selberg's Integral Formula then…

Combinatorics · Mathematics 2020-05-19 Alexander Haupt

We use linear algebraic methods to obtain general results about linear operators on a space of polynomials that we apply to the operators associated with a polynomial sequence by the monomiality property. We show that all such operators are…

Classical Analysis and ODEs · Mathematics 2024-03-12 Luis Verde-Star

We obtain new recurrence relations, an explicit formula, and convolution identities for higher order geometric polynomials. These relations generalize known results for geometric polynomials, and lead to congruences for higher order…

Number Theory · Mathematics 2021-06-08 Levent Kargın , Mehmet Cenkci

We generalize Sylvester single sums to multisets (sets with repeated elements), and show that these sums compute subresultants of two univariate polyomials as a function of their roots independently of their multiplicity structure. This is…

Commutative Algebra · Mathematics 2018-12-12 Carlos D'Andrea , Teresa Krick , Agnes Szanto , Marcelo Valdettaro

The main purpose of this paper is to study generalized (self-) reciprocal Appell polynomials, which play a certain role in connection with Faulhaber-type polynomials. More precisely, we show for any Appell sequence when satisfying a…

Number Theory · Mathematics 2024-06-26 Bernd C. Kellner

Inspired by the framework of operational methods and based on the generating functions of Legendre-Gould Hopper polynomials and Sheffer sequences, we discuss certain new mixed type polynomials and their important properties. We show that…

Number Theory · Mathematics 2019-11-22 Nabiullah Khan , Talha Usman , Mohd Aman

By applying a Gr\"{o}bner-Shirshov basis of the symmetric group $S_{n}$, we give two formulas for Schubert polynomials, either of which involves only nonnegative monomials. We also prove some combinatorial properties of Schubert…

Rings and Algebras · Mathematics 2017-09-15 Zerui Zhang , Yuqun Chen

We study a new Selberg-type integral with $n+m$ indeterminates, which turns out to be related to the deformed Calogero-Sutherland systems. We show that the integral satisfies a holonomic system of $n+m$ non-symmetric linear partial…

Mathematical Physics · Physics 2011-09-23 Patrick Desrosiers , Dang-Zheng Liu

We prove a generalization of the $q$-Selberg integral evaluation formula. The integrand is that of $q$-Selberg integral multiplied by a factor of the same form with respect to part of the variables. The proof relies on the quadratic norm…

Classical Analysis and ODEs · Mathematics 2022-03-01 Jyoichi Kaneko

We present several formulae for the Selberg type integrals associated with the Lie algebra $sl_3$.

Quantum Algebra · Mathematics 2009-11-10 V. Tarasov , A. Varchenko

The aim of this paper is to present a new simple recurrence for Appell and Sheffer sequences in terms of the linear functional that defines them, and to explain how this is equivalent to several well-known characterizations appearing in the…

Classical Analysis and ODEs · Mathematics 2021-03-24 Sergio A. Carrillo , Miguel Hurtado

Using an extension of the well-known evaluation symmetry, a new Cauchy-type identity for Macdonald polynomials is proved. After taking the classical limit this yields a new sl_3 generalisation of the famous Selberg integral. Closely related…

Classical Analysis and ODEs · Mathematics 2010-06-18 S. Ole Warnaar

We consider the Krall-Sheffer class of admissible, partial differential operators in the plane. We concentrate on algebraic structures, such as the role of commuting operators and symmetries. For the polynomial eigenfunctions, we give…

Mathematical Physics · Physics 2013-07-02 Allan P. Fordy , Michael J. Scott

We realize that geometric polynomials and p-Bernoulli polynomials and numbers are closely related with an integral representation. Therefore, using geometric polynomials, we extend some properties of Bernoulli polynomials and numbers such…

Number Theory · Mathematics 2017-02-22 Levent Kargın

Zeilberger's algorithm provides a method to compute recurrence and differential equations from given hypergeometric series representations, and an adaption of Almquist and Zeilberger computes recurrence and differential equations for…

Classical Analysis and ODEs · Mathematics 2016-09-07 Wolfram Koepf , Dieter Schmersau

We formulate and prove a general recurrence relation that applies to integrals involving orthogonal polynomials and similar functions. A special case are connection coefficients between two sets of orthonormal polynomials, another example…

Classical Analysis and ODEs · Mathematics 2023-08-17 Jing Gao , Arieh Iserles

For an arbitrary homogeneous linear recurrence sequence of order d with constant coefficients, we derive recurrence relations for all subsequences with indices in arithmetic progression. The coefficients of these recurrences are given…

Number Theory · Mathematics 2016-11-29 Daniel Birmajer , Juan B. Gil , Michael D. Weiner