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Fuchsian equation : ウィキペディア英語版
Regular singular point
In mathematics, in the theory of ordinary differential equations in the complex plane \mathbb, the points of \mathbb are classified into ''ordinary points'', at which the equation's coefficients are analytic functions, and ''singular points'', at which some coefficient has a singularity. Then amongst singular points, an important distinction is made between a regular singular point, where the growth of solutions is bounded (in any small sector) by an algebraic function, and an irregular singular point, where the full solution set requires functions with higher growth rates. This distinction occurs, for example, between the hypergeometric equation, with three regular singular points, and the Bessel equation which is in a sense a limiting case, but where the analytic properties are substantially different.
==Formal definitions==
More precisely, consider an ordinary linear differential equation of ''n''-th order

:
\sum_^n p_i(z) f^ (z) = 0

with ''p''''i'' (''z'') meromorphic functions. One can assume that
:p_n(z) = 1. \,
If this is not the case the equation above has to be divided by ''p''n(x). This may introduce singular points to consider.
The equation should be studied on the Riemann sphere to include the point at infinity as a possible singular point. A Möbius transformation may be applied to move ∞ into the finite part of the complex plane if required, see example on Bessel differential equation below.
Then the Frobenius method based on the indicial equation may be applied to find possible solutions that are power series times complex powers (''z'' − ''a'')''r''
near any given ''a'' in the complex plane where ''r'' need not be an integer; this function may exist, therefore, only thanks to a branch cut extending out from ''a'', or on a Riemann surface of some punctured disc around ''a''. This presents no difficulty for ''a'' an ordinary point (Lazarus Fuchs 1866). When ''a'' is a regular singular point, which by definition means that

:p_(z)\,

has a pole of order at most ''i'' at ''a'', the Frobenius method also can be made to work and provide ''n'' independent solutions near ''a''.
Otherwise the point ''a'' is an irregular singularity. In that case the monodromy group relating solutions by analytic continuation has less to say in general, and the solutions are harder to study, except in terms of their asymptotic expansions.
The regularity condition is a kind of Newton polygon condition, in the sense that the allowed poles are in a region, when plotted against ''i'', bounded by a line at 45° to the axes.
An ordinary differential equation whose only singular points, including the point at infinity, are regular singular points is called a Fuchsian ordinary differential equation.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Regular singular point」の詳細全文を読む



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