On the interplay between hypergeometric series, Fourier-Legendre expansions and Euler sums

Abstract

In this work we continue the investigation about the interplay between hypergeometric functions and Fourier-Legendre (FL) series expansions. In the section "Hypergeometric series related to π,π2 and the lemniscate constant", through the FL-expansion of [x(1-x)]μ (with μ+1∈14N) we prove that all the hypergeometric series Σn≥ 0(-1)n(4n+1)p(n)[14n2nn]3, Σn≥ 0(4n+1)p(n)[14n2nn]4, Σn≥ 0(4n+1)p(n)2[14n2nn]4,\; Σn≥ 01p(n)[14n2nn]3,\; Σn≥ 01p(n)[14n2nn]2 return rational multiples of 1π,1π2 or the lemniscate constant, as soon as p(x) is a polynomial fulfilling suitable symmetry constraints. Additionally, by computing the FL-expansions of xx and related functions, we show that in many cases the hypergeometric p+1 Fp(… , z) function evaluated at z= 1 can be converted into a combination of Euler sums. In particular we perform an explicit evaluation of Σn≥ 01(2n+1)2[14n2nn]2, Σn≥ 01(2n+1)3[14n2nn]2. In the section "Twisted hypergeometric series" we show that the conversion of some p+1 Fp(…, 1) values into combinations of Euler sums, driven by FL-expansions, applies equally well to some twisted hypergeometric series, i.e. series of the form Σn≥ 0 an bn where an is a Stirling number of the first kind and Σn≥ 0bn zn = p+1 Fp(…;z).