Frobenius Method
المؤلف:
Arfken, G
المصدر:
Mathematical Methods for Physicists, 3rd ed. Orlando, FL: Academic Press
الجزء والصفحة:
...
12-6-2018
2695
Frobenius Method
If 
is an ordinary point of the ordinary differential equation, expand 
in a Taylor series about 
. Commonly, the expansion point can be taken as 
, resulting in the Maclaurin series
 |
(1)
|
Plug 
back into the ODE and group the coefficients by power. Now, obtain a recurrence relation for the 
th term, and write the series expansion in terms of the 
s. Expansions for the first few derivatives are
If 
is a regular singular point of the ordinary differential equation,
 |
(7)
|
solutions may be found by the Frobenius method or by expansion in a Laurent series. In the Frobenius method, assume a solution of the form
 |
(8)
|
so that
Now, plug 
back into the ODE and group the coefficients by power to obtain a recursion formula for the 
th term, and then write the series expansion in terms of the 
s. Equating the 
term to 0 will produce the so-called indicial equation, which will give the allowed values of 
in the series expansion.
As an example, consider the Bessel differential equation
 |
(13)
|
Plugging (◇) into (◇) yields
 |
(14)
|
The indicial equation, obtained by setting 
, is then
![a_0[k(k-1)+k-m^2]=a_0(k^2-m^2)=0.](http://mathworld.wolfram.com/images/equations/FrobeniusMethod/NumberedEquation6.gif) |
(15)
|
Since 
is defined as the first nonzero term, 
, so 
. For illustration purposes, ignore 
and consider only the case 
(avoiding the special case 
), then equation (14) requires that
 |
(16)
|
(so 
) and
![[a_nn(2m+n)+a_(n-2)]x^(m+n)=0](http://mathworld.wolfram.com/images/equations/FrobeniusMethod/NumberedEquation8.gif) |
(17)
|
for 
, 3, ..., so
 |
(18)
|
for 
. Plugging back in to (◇), rearranging, and simplifying then gives the series solution that defined the Bessel function of the first kind 
, which is the nonsingular solution to (◇). (Considering the case 
proceeds analogously and results in the solution 
.)
Fuchs's theorem guarantees that at least one power series solution will be obtained when applying the Frobenius method if the expansion point is an ordinary, or regular, singular point. For a regular singular point, a Laurent seriesexpansion can also be used. Expand 
in a Laurent series, letting
 |
(19)
|
Plug 
back into the ODE and group the coefficients by power. Now, obtain a recurrence formula for the 
th term, and write the Taylor series in terms of the 
s.
REFERENCES:
Arfken, G. "Series Solutions--Frobenius' Method." §8.5 in Mathematical Methods for Physicists, 3rd ed. Orlando, FL: Academic Press, pp. 454-467, 1985.
Frobenius. "Ueber die Integration der linearen Differentialgleichungen durch Reihen." J. reine angew. Math. 76, 214-235, 1873.
Ince, E. L. Ch. 5 in Ordinary Differential Equations. New York: Dover, 1956.
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