On Askey's extension of Clausen's identity and its polynomial perturbation

Abstract

The celebrated Clausen's identity expresses the square of the Gauss hypergeometric series 2F1(a,b;a+b+1/2;x) as a single hypergeometric 3F2 series. Goursat showed in 1883 that replacing 1/2 by m+1/2 leads to a hypergeometric series for the square whenever m is a positive integer. Askey found this series explicitly for m=1. The first goal of this paper is to extend this result by treating the case of any natural m. The 3F2 series on the right-hand side is thereby replaced by its perturbation by an explicit characteristic polynomial of degree 2m, i.e., its coefficients are multiplied by values of this polynomial at nonnegative integers. The second goal of this paper is to make one further step and replace the square of the Gauss function by its product with its perturbation by an arbitrary polynomial of degree s2m+1. We show that such product remains hypergeometric and find its explicit form in terms of a polynomial perturbation of the 3F2 series. We present an explicit formula for the characteristic polynomial whose degree is shown to be 2m+s.