Author:
Cano José,Falkensteiner Sebastian,Sendra J. Rafael
Abstract
AbstractIn this paper, we study the algebraic, rational and formal Puiseux series solutions of certain type of systems of autonomous ordinary differential equations. More precisely, we deal with systems which associated algebraic set is of dimension one. We establish a relationship between the solutions of the system and the solutions of an associated first order autonomous ordinary differential equation, that we call the reduced differential equation. Using results on such equations, we prove the convergence of the formal Puiseux series solutions of the system, expanded around a finite point or at infinity, and we present an algorithm to describe them. In addition, we bound the degree of the possible algebraic and rational solutions, and we provide an algorithm to decide their existence and to compute such solutions if they exist. Moreover, if the reduced differential equation is non trivial, for every given point $$(x_0,y_0) \in \mathbb {C}^2$$
(
x
0
,
y
0
)
∈
C
2
, we prove the existence of a convergent Puiseux series solution y(x) of the original system such that $$y(x_0)=y_0$$
y
(
x
0
)
=
y
0
.
Funder
Johannes Kepler University Linz
Publisher
Springer Science and Business Media LLC
Subject
Applied Mathematics,Computational Theory and Mathematics,Computational Mathematics
Cited by
3 articles.
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