Monotonicity and log-behavior of some functions related to the Euler Gamma function

Abstract

The aim of this paper is to develop analytic techniques to deal with certain monotonicity of combinatorial sequences. (1) A criterion for the monotonicity of the function [x]f(x) is given, which is a continuous analog for one result of Wang and Zhu. (2) The log-behavior of the functions θ(x)=[x]2 ζ(x)(x+1) and F(x)=[x](ax+b+1)(c x+d+1)(e x+f+1) is considered, where ζ(x) and (x) are the Riemann zeta function and the Euler Gamma function, respectively. As consequences, the strict log-concavities of the function θ(x) (a conjecture of Chen et al.) and \[n]zn\ for some combinatorial sequences (including the Bernoulli numbers, the Tangent numbers, the Catalan numbers, the Fuss-Catalan numbers and some Binomial coefficients) are demonstrated. In particular, this contains some results of Chen et al., Luca and Stanica. (3). By researching logarithmically complete monotonicity of some functions, the infinite log-monotonicity of the sequence \(n0+ia)!(k0+ib)!(k0+ib)!\i≥0 is proved. This generalizes two results of Chen et al. that both the Catalan numbers 1n+12nn and central binomial coefficients 2nn are infinitely log-monotonic and strengths one result of Su and Wang that dnδ n is log-convex in n. (4) The asymptotically infinite log-monotonicity of derangement numbers is showed. (5)The logarithmically complete monotonicity of functions 1/[x]a ζ(x+b)(x+c) and [x]Πi=1n(x+ai)(x+bi) is also obtained, which generalizes the results of Lee and Tepedelenlioglu, Qi and Li.