AI Chat AI Image Generator AI Video Text to Speech

Numerical evaluation of Airy-type integrals arising in uniform asymptotic analysis

01/06/2020

∙

by Amparo Gil, et al.

∙

∙

We describe a method to evaluate integrals that arise in the asymptotic analysis when two saddle points may be close together. These integrals, which appear in problems from optics, acoustics or quantum mechanics as well as in a wide class of special functions, can be transformed into Airy-type integrals and we use the trapezoidal rule to compute these integrals numerically. The quadrature method, which remains valid when two saddle points coalesce, is illustrated with numerical examples.

Amparo Gil
2 publications
Javier Segura
4 publications
Nico M. Temme
4 publications

page 1

page 2

page 3

page 4

research

∙ 05/31/2021

A simple numerical method for Hele-Shaw type problems by the method of fundamental solutions

Hele-Shaw flows with time-dependent gaps create fingering patterns, and ...

0 Koya Sakakibara, et al. ∙

research

∙ 03/21/2022

A Vanka-type multigrid solver for complex-shifted Laplacian systems from diagonalization-based parallel-in-time algorithms

We propose and analyze a Vanka-type multigrid solver for solving a seque...

0 Yunhui He, et al. ∙

research

∙ 01/12/2020

Asymptotic inversion of the binomial and negative binomial cumulative distribution functions

The computation and inversion of the binomial and negative binomial cumu...

0 A. Gil, et al. ∙

research

∙ 08/02/2023

Some notes on the trapezoidal rule for Fourier type integrals

This paper deals with the error analysis of the trapezoidal rule for the...

0 Eleonora Denich, et al. ∙

research

∙ 07/28/2023

A fast procedure for the construction of quadrature formulas for bandlimited functions

We introduce an efficient scheme for the construction of quadrature rule...

0 Abinand Gopal, et al. ∙

research

∙ 12/01/2020

Asymptotic Shape of Quantum Markov Semigroups for Compact Uniform Trees

We give locally finite Markov trees in L^p-compact, separable Hilbert, s...

0 Margarita Belova, et al. ∙

research

∙ 09/30/2019

On the best constants in L^2 approximation

In this paper we provide explicit upper and lower bounds on the L^2n-wid...

0 Andrea Bressan, et al. ∙