English

Matrix-valued Gegenbauer polynomials

Classical Analysis and ODEs 2016-04-15 v2

Abstract

We introduce matrix-valued weight functions of arbitrary size, which are analogues of the weight function for the Gegenbauer or ultraspherical polynomials for the parameter ν>0\nu>0. The LDU-decomposition of the weight is explicitly given in terms of Gegenbauer polynomials. We establish a matrix-valued Pearson equation for these matrix weights leading to explicit shift operators relating the weights for parameter ν\nu and ν+1\nu+1. The matrix coefficients of the Pearson equation are obtained using a special matrix-valued differential operator in a commutative algebra of symmetric differential operators. The corresponding orthogonal polynomials are the matrix-valued Gegenbauer polynomials which are eigenfunctions for the symmetric matrix-valued differential operators. Using the shift operators we find the squared norm and we establish a simple Rodrigues formula. The three-term recurrence relation is obtained explicitly using the shift operators as well. We give an explicit non-trivial expression for the matrix entries of the matrix-valued Gegenbauer polynomials in terms of scalar-valued Gegenbauer and Racah polynomials using the LDU-decomposition and differential operators. The case ν=1\nu=1 reduces to the case of matrix-valued Chebyshev polynomials previously obtained using group theoretic considerations.

Keywords

Cite

@article{arxiv.1403.2938,
  title  = {Matrix-valued Gegenbauer polynomials},
  author = {Erik Koelink and Ana M. de los Rios and Pablo Roman},
  journal= {arXiv preprint arXiv:1403.2938},
  year   = {2016}
}

Comments

25 pages, accompanying Maple worksheet available at http://www.math.ru.nl/~koelink/publist-ro.html. Proofs have been simplified by exploiting shift operators extensively. The proofs of the symmetry of some matrix-valued differential operators have been simplified using the LDU-decomposition of the weight. The proof of the matrix-valued Pearson equation has been simplified using the shift operator

R2 v1 2026-06-22T03:25:10.355Z