Error Bounds for Asymptotic Expansions of Hankel Transforms

Uniform asymptotic expansions are derived for Whittaker’s confluent hypergeometric functions M κ , μ ( z ) and W κ , μ ( z ) , as well as the numerically satisfactory companion function W − κ , μ ( z e − π i ) . The expansions are uniformly valid for μ → ∞ , 0 ≤ κ / μ ≤ 1 − δ < 1 and 0 ≤ arg ⁡ ( z ) ≤ π . By using appropriate connection and analytic continuation formulae, these expansions can be extended to all unbounded non-zero complex z . The approximations come from recent asymptotic expansions involving elementary functions and Airy functions, and explicit error bounds are either provided or available.

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Simplified error bounds for turning point expansions

Analysis and Applications ◽

10.1142/s0219530520500104 ◽

2020 ◽

pp. 1-32

Author(s):

T. M. Dunster ◽

A. Gil ◽

J. Segura

Keyword(s):

Differential Equations ◽

Error Bounds ◽

Asymptotic Expansions ◽

Turning Point ◽

Linear Differential Equations ◽

Airy Functions ◽

Elementary Functions ◽

Varying Coefficient ◽

Linear Differential ◽

High Degree

Recently, the present authors derived new asymptotic expansions for linear differential equations having a simple turning point. These involve Airy functions and slowly varying coefficient functions, and were simpler than previous approximations, in particular being computable to a high degree of accuracy. Here we present explicit error bounds for these expansions which only involve elementary functions, and thereby provide a simplification of the bounds associated with the classical expansions of Olver.

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On Asymptotic Expansions and Error Bounds in the Derivation of Two-Dimensional Shell Theory

Studies in Applied Mathematics ◽

10.1002/sapm1977563189 ◽

1977 ◽

Vol 56 (3) ◽

pp. 189-217 ◽

Cited By ~ 8

Author(s):

S. Nair ◽

E. Reissner

Keyword(s):

Error Bounds ◽

Asymptotic Expansions ◽

Shell Theory ◽

Two Dimensional

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Error bounds for the asymptotic expansion of the Hurwitz zeta function

Proceedings of The Royal Society A Mathematical Physical and Engineering Sciences ◽

10.1098/rspa.2017.0363 ◽

2017 ◽

Vol 473 (2203) ◽

pp. 20170363 ◽

Cited By ~ 1

Author(s):

G. Nemes

Keyword(s):

Asymptotic Expansion ◽

Zeta Function ◽

Gamma Function ◽

Error Bounds ◽

Asymptotic Expansions ◽

Remainder Term ◽

Hurwitz Zeta Function ◽

Polygamma Functions

In this paper, we reconsider the large- a asymptotic expansion of the Hurwitz zeta function ζ ( s , a ). New representations for the remainder term of the asymptotic expansion are found and used to obtain sharp and realistic error bounds. Applications to the asymptotic expansions of the polygamma functions, the gamma function, the Barnes G -function and the s -derivative of the Hurwitz zeta function ζ ( s , a ) are provided. A detailed discussion on the sharpness of our error bounds is also given.

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The resurgence properties of the large-order asymptotics of the Hankel and Bessel functions

Analysis and Applications ◽

10.1142/s021953051450033x ◽

2014 ◽

Vol 12 (04) ◽

pp. 403-462 ◽

Cited By ~ 1

Author(s):

Gergő Nemes

Keyword(s):

Error Bounds ◽

Asymptotic Expansions ◽

Bessel Functions ◽

Smooth Transition ◽

Large Order ◽

Computable Error Bounds

The aim of this paper is to derive new representations for the Hankel and Bessel functions, exploiting the reformulation of the method of steepest descents by Berry and Howls [Hyperasymptotics for integrals with saddles, Proc. R. Soc. Lond. A 434 (1991) 657–675]. Using these representations, we obtain a number of properties of the large-order asymptotic expansions of the Hankel and Bessel functions due to Debye, including explicit and numerically computable error bounds, asymptotics for the late coefficients, exponentially improved asymptotic expansions, and the smooth transition of the Stokes discontinuities.

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