Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

SPECIAL FUNCTIONS


the form of a Frobenius series corresponding to the larger root,σ 1 =ν=m/2,


as described above. However, for the smaller root,σ 2 =−ν=−m/2, we must


determine whether a second Frobenius series solution is possible by examining


the recurrence relation (18.78), which reads


n(n−m)an+an− 2 =0 forn≥ 2.

Sincemis anoddpositive integer in this case, we can use this recurrence relation


(starting witha 0 = 0) to calculatea 2 ,a 4 ,a 6 ,...in the knowledge that all these


terms will remain finite. It is possible in this case, therefore, to find a second


solution in the form of a Frobenius series, one that corresponds to the smaller


rootσ 2.


Thus, in general, for non-integerνwe have from (18.77) and (18.78)

an = −

1
n(n± 2 ν)

an− 2 forn=2, 4 , 6 ,...,

=0 forn=1, 3 , 5 ,....

Settinga 0 = 1 in each case, we obtain the two solutions


y±ν(x)=x±ν

[
1 −

x^2
2(2± 2 ν)

+

x^4
2 ×4(2± 2 ν)(4± 2 ν)

−···

]
.

It is customary, however, to set

a 0 =

1
2 ±νΓ(1±ν)

,

where Γ(x)isthegamma function, described in subsection 18.12.1; it may be


regarded as the generalisation of the factorial function to non-integer and/or


negative arguments.§The two solutions of (18.73) are then written asJν(x)and


J−ν(x), where


Jν(x)=

1
Γ(ν+1)

(x

2

)ν[
1 −

1
ν+1

(x

2

) 2
+

1
(ν+1)(ν+2)

1
2!

(x

2

) 4
−···

]

=

∑∞

n=0

(−1)n
n!Γ(ν+n+1)

(x

2

)ν+2n
; (18.79)

replacingνby−νgivesJ−ν(x). The functionsJν(x)andJ−ν(x) are calledBessel


functions of the first kind, of orderν. Since the first term of each series is a


finite non-zero multiple ofxνandx−ν, respectively, ifνis not an integer then


Jν(x)andJ−ν(x) are linearly independent. This may be confirmed by calculating


the Wronskian of these two functions. Therefore, for non-integerνthe general


solution of Bessel’s equation (18.73) is given by


y(x)=c 1 Jν(x)+c 2 J−ν(x). (18.80)

§In particular, Γ(n+1)=n!forn=0, 1 , 2 ,. ..,and Γ(n) is infinite ifnis any integer≤0.
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