On Non-Oscillating Integrals for Computing Inhomogeneous Airy Functions

Abstract

Integral representations are considered of solutions of the inhomogeneous Airy differential equation w''-z w=1/π. The solutions of these equations are also known as Scorer functions. Certain functional relations for these functions are used to confine the discussion to one function and to a certain sector in the complex plane. By using steepest descent methods from asymptotics, the standard integral representations of the Scorer functions are modified in order to obtain non-oscillating integrals for complex values of z. In this way stable representations for numerical evaluations of the functions are obtained. The methods are illustrated with numerical results.

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