Neven Elezović
Published 2013-12-05Version 1
The asymptotic expansion of digamma function is a starting point for the derivation of approximants for harmonic sums or Euler-Mascheroni constant. It is usual to derive such approximations as values of logarithmic function, which leads to the expansion of the exponentials of digamma function. In this paper the asymptotic expansion of the function $\exp(p\psi(x+t))$ is derived and analyzed in details, especially for integer values of parameter $p$. The behavior for integer values of $p$ is proved and as a consequence a new identity for Bernoulli polynomials. The obtained formulas are used to improve know inequalities for Euler's constant and harmonic numbers.
Limit formulas for ratios of derivatives of the gamma and digamma functions at their singularities
The integrals in Gradshteyn and Ryzhik. Part 10: the digamma function
The $(p,q)$-Analogues of Some Inequalities for the Digamma Function
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