Mathematical Methods for Physics and Engineering : A Comprehensive Guide

SPECIAL FUNCTIONS

J 0

J 1

J 2

246810

x

− 0. 5

0. 5

1

1. 5

Figure 18.5 The first three integer-order Bessel functions of the first kind.

this is given by

J 0 (x)=

∑∞

n=0

(−1)nx^2 n

22 nn!Γ(1 +n)

=1−

x^2

22

+

x^4

2242

−

x^6

224262

+···.

In general, however, ifνis a positive integer then the solutions of the indicial

equation differ by an integer. For the larger root,σ 1 =ν, we may find a solution

Jν(x), forν=1, 2 , 3 ,..., in the form of the Frobenius series given by (18.79).

Graphs ofJ 0 (x),J 1 (x)andJ 2 (x) are plotted in figure 18.5 for realx.Forthe

smaller root,σ 2 =−ν, however, the recurrence relation (18.78) becomes

n(n−m)an+an− 2 =0 forn≥ 2 ,

wherem=2νis now anevenpositive integer, i.e.m=2, 4 , 6 ,.... Starting with

a 0 = 0 we may then calculatea 2 ,a 4 ,a 6 ,..., but we see that whenn=mthe

coefficientan is formally infinite, and the method fails to produce a second

solution in the form of a Frobenius series.

In fact, by replacingνby−νin the definition ofJν(x) given in (18.79), it can

be shown that, for integerν,

J−ν(x)=(−1)νJν(x),