Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

APPLICATIONS OF COMPLEX VARIABLES


C 1


C 2


C 3


Ret

Imt

Figure 25.10 The contours used in the complext-plane to define the functions
Ai(z)andBi(z).

though sometimes the sense of traversal is reversed. Consequently there are


relationships connecting Ai and Bi when the rotated variables are used as their


arguments. As two examples,


Ai(z)+ΩAi(Ωz)+Ω^2 Ai(Ω^2 z)=0, (25.37)

Bi(z)=i[Ω^2 Ai(Ω^2 z)−ΩAi(Ωz)] =e−πi/^6 Ai(ze−^2 πi/^3 )+eπi/^6 Ai(ze^2 πi/^3 ).
(25.38)

Since the only requirements for the integral paths is that they start and end in

the correct sectors, we can distort pathC 1 so that it lies on the imaginary axis


for virtually its whole length and just to the left of the axis at its two ends. This


enables us to obtain an alternative expression for Ai(z), as follows.


Settingt=is,wheresis real and−∞<s<∞, converts the integral represen-

tation of Ai(z)to


Ai(z)=

1
2 π

∫∞

−∞

exp[i(^13 s^3 +zs)]ds.

Now, the exponent in this integral is an odd function ofsand so the imaginary


part of the integrand contributes nothing to the integral. What is left is therefore


Ai(z)=

1
π

∫∞

0

cos(^13 s^3 +zs)ds. (25.39)

This form shows explicitly that whenzis real, so is Ai(z).


This same representation can also be used to justify the association of the
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