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An asymptotic analysis of the Fourier-Laplace transforms of certain oscillatory functions (2005.06116v2)

Published 13 May 2020 in math.CV and math.CA

Abstract: We study the family of Fourier-Laplace transforms $$ F_{\alpha,\beta}(z)= \operatorname*{F.p.} \int_{0}{\infty} t{\beta}\exp(\mathrm{i} t{\alpha}-\mathrm{i} z t):\mathrm{d} t, \quad \operatorname*{Im} z<0, $$ for $\alpha>1$ and $\beta\in\mathbb{C}$, where Hadamard finite part is used to regularize the integral when $\operatorname*{Re} \beta\leq -1$. We prove that each $F_{\alpha,\beta}$ has analytic continuation to the whole complex plane and determine its asymptotics along any line through the origin. We also apply our ideas to show that some of these functions provide concrete extremal examples for the Wiener-Ikehara theorem and a quantified version of the Ingham-Karamata theorem, supplying new simple and constructive proofs of optimality results for these complex Tauberian theorems.

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