Title of article
Bifurcation of Homoclinic Orbits to a Saddle-Focus in Reversible Systems with SO(2)-Symmetry,
Author/Authors
Andrei Afendikov، نويسنده , , Alexander Mielke، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1999
Pages
33
From page
370
To page
402
Abstract
We study reversible, SO(2)-invariant vector fields in 4 depending on a real parameter which possess for =0 a primary family of homoclinic orbits TαH0, α 1. Under a transversality condition with respect to the existence of homoclinic n-pulse solutions is demonstrated for a sequence of parameter values (n)k→0 for k→∞. The existence of cascades of 2l3m-pulse solutions follows by showing their transversality and then using induction. The method relies on the construction of an SO(2)-equivariant Poincaré map which, after factorization, is a composition of two involutions: A logarithmic twist map and a smooth global map. Reversible periodic orbits of this map corresponds to reversible periodic or homoclinic solutions of the original problem. As an application we treat the steady complex Ginzburg–Landau equation for which a primary homoclinic solution is known explicitly.
Journal title
JOURNAL OF DIFFERENTIAL EQUATIONS
Serial Year
1999
Journal title
JOURNAL OF DIFFERENTIAL EQUATIONS
Record number
749831
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