Recurrence relations of coefficients involving hypergeometric function with an application (2204.04709v1)

Abstract: For $a,b,p\in \mathbb{R}$, $-c\notin \mathbb{N\cup }\left{ 0\right} $ and $ \theta \in \left[ -1,1\right] $, let \begin{equation*} U_{\theta }\left( x\right) =\left( 1-\theta x\right) ^{p}F\left( a,b;c;x\right) =\sum_{n=0}^{\infty }u_{n}\left( \theta \right) x^{n}. \end{equation*}% In this paper, we prove that the coefficients $u_{n}\left( \theta \right) $ for $n\geq 0$ satisfies a 3-order recurrence relation. In particular, $ u_{n}\left( 1\right) $ satisfies a 2-order recurrence relation. These offer a new way to study for hypergeometric function. As an example, we present the necessary and sufficient conditions such that a hypergeometric mean value is Schur m-power convex or concave on $\mathbb{R}_{+}^{2}$.