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Title: Complete monotonicity of the remainder in an asymptotic series related to the psi function (English)
Author: Yang, Zhen-Hang
Author: Tian, Jing-Feng
Language: English
Journal: Czechoslovak Mathematical Journal
ISSN: 0011-4642 (print)
ISSN: 1572-9141 (online)
Volume: 74
Issue: 1
Year: 2024
Pages: 337-351
Summary lang: English
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Category: math
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Summary: Let $p,q\in \mathbb {R}$\ with $p-q\geq 0$, $\sigma = \frac 12 ( p+q-1)$ and $s=\frac 12 ( 1-p+q)$, and let $$ \mathcal {D}_{m} ( x;p,q ) =\mathcal {D}_{0} ( x;p,q ) +\sum _{k=1}^{m}\frac {B_{2k} ( s) }{2k ( x+\sigma ) ^{2k}} , $$ where $$ \mathcal {D}_{0} ( x;p,q ) =\frac {\psi ( x+p ) +\psi ( x+q ) }{2}-\ln ( x+\sigma ) . $$ We establish the asymptotic expansion $$ \mathcal {D}_{0} ( x;p,q ) \sim -\sum _{n=1}^{\infty } \frac {B_{2n} ( s ) }{2n ( x+\sigma ) ^{2n}} \quad \text {as} \^^Mx\rightarrow \infty , $$ where $B_{2n} ( s ) $ stands for the Bernoulli polynomials. Further, we prove that the functions $( -1) ^{m}\mathcal {D}_{m} ( x;p,q )$ and $( -1) ^{m+1}\mathcal {D}_{m} ( x;p,q )$ are completely monotonic in $x$ on $( -\sigma ,\infty )$ for every $m\in \mathbb {N}_{0}$ if and only if $p-q\in [ 0, \tfrac 12 ]$ and $p-q=1$, respectively. This not only unifies the two known results but also yields some new results. (English)
Keyword: psi function
Keyword: asymptotic expansion
Keyword: complete monotonicity
MSC: 26A48
MSC: 33B15
MSC: 41A60
DOI: 10.21136/CMJ.2024.0354-23
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Date available: 2024-03-13T10:12:37Z
Last updated: 2024-03-18
Stable URL: http://hdl.handle.net/10338.dmlcz/152284
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