Paper Info
Title
Inequalities and asymptotic expansions for the constants of Landau and Lebesgue.
Abstract
The constants of Landau and Lebesgue are defined, for all integers n⩾0, in order, byGn=∑k=0n116k2kk2andLn=12π∫-ππsinn+12tsin12tdt,which play important roles in the theories of complex analysis and Fourier series, respectively. Diverse inequalities and approximations for these constants have been investigated and developed by many authors. Here, in this paper, we establish new asymptotic expansions for the constants Gn and Ln/2 of Landau and Lebesgue, respectively, in terms of the digamma and polygamma functions. Based on our expansion for the Landau constants Gn, we present new bounds for the Landau constants Gn in terms of the digamma and polygamma functions. We also establish inequalities for the Lebesgue constants Ln/2, which are applied to derive an asymptotic expansion for Ln/2 in terms of 1/(n+1). Furthermore, by giving numerical calculations to be compared, among several developed asymptotic expansions for the constants Gn and Ln/2, it is shown that our expansions presented here would be best ones.
Year
DOI
Venue
2014
10.1016/j.amc.2014.10.017
Applied Mathematics and Computation
Keywords
Field
DocType
inequality,asymptotic expansion,gamma function
Landau's constants,Integer,Mathematical analysis,Digamma function,Asymptotic expansion,Fourier series,Mathematics,Lebesgue integration,Gamma function
Journal
Volume
ISSN
Citations 
248
0096-3003
4
PageRank 
References 
Authors
0.56
5
2
Name
Order
Citations
PageRank
Chao-Ping Chen15812.24
Junesang Choi28920.95