期刊
出版社
SPRINGER-VERLAG ITALIA SRL
DOI: 10.1007/s13398-021-01168-3
关键词
Riemann zeta function; Gamma function; Asymptotic formula; Inequality
资金
- Key Science Research Project in Universities of Henan [20B110007]
- Fundamental Research Funds for the Universities of Henan Province [NSFRF210446]
In this paper, certain asymptotic expansions and inequalities for the Apery constant are presented. The results are based on the series representations of the Apery constant. For example, based on Gosper's result zeta(3) = 1/4 Sigma(infinity)(k=1) 30k-11/(2k - 1)k(3) ((2k)(k))(2), the following asymptotic expansion of the remainder R-n is established: R-n = 1/4 Sigma(infinity)(k=n+1) 30k-11/(2k - 1)k(3) ((2k)(k))(2) similar to pi/n(2)2(4n+2) {1 - 7/4n + 81/32n(2) - 489/128n(3) + 13787/2048 - ... }, as n -> infinity. Moreover, a formula for determining the coefficients in the expansion is given. Inequalities for the Apery constant are also proven.
In this paper, we present certain asymptotic expansions and prove some inequalities for the Apery constant. The results are based on the series representations of the Apery constant. For example, based on Gosper's result zeta(3) = 1/4 Sigma(infinity)(k=1) 30k-11/(2k - 1)k(3) ((2k)(k))(2), we establish the following asymptotic expansion of the remainder R-n: R-n = 1/4 Sigma(infinity)(k=n+1) 30k-11/(2k - 1)k(3) ((2k)(k))(2) similar to pi/n(2)2(4n+2) {1 - 7/4n + 81/32n(2) - 489/128n(3) + 13787/2048 - ... } as n -> infinity. Moreover, we give a formula for determining the coefficients in expansion. Then we prove inequalities for the Apery constant.
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