Numerical unfoldings of codimension-three resonant homoclinic flip bifurcations
Copyright policy )Numerical unfoldings of codimension-three resonant homoclinic flip bifurcations
The paper presents a careful numerical study of two homoclinic codimension-three bifurcations. In these resonant homoclinic flip bifurcations both a resonance between real eigenvalues and some codimension-two flip bifurcation (inclination flip or orbit flip) occur simultaneously. Using a model equation of Sandstede the authors study with AUTO and HOMCONT transitions between different regions. Although they consider a specific equation, many of the results should hold universally. In each case, a small sphere around the codimension-three point is considered assuming that the qualitative picture of the bifurcation curves on the sphere does not depend on the radius. Some care has to be paid to a ``good'' choice of the radius since for large radii new bifurcations appear while it is impossible to distinguish certain bifurcation curves when the radius is too small. A rich variety of bifurcations can be detected including homoclinic-doubling cascades, torus bifurcations and shift dynamics. The numerical results largely confirm recent theoretical studies and conjectures of \textit{A. J. Homburg} and \textit{B. Krauskopf} [J. Dyn. Differ. Equ. 12, 807-850 (2000; Zbl 0990.37041)].
- University of Bristol United Kingdom
- Warsaw School of Computer Science Poland
name=Engineering Mathematics Research Group, homoclinic bifurcation, Hyperbolic singular points with homoclinic trajectories in dynamical systems, /dk/atira/pure/core/keywords/engineering_mathematics_research_group; name=Engineering Mathematics Research Group, chaos, Homoclinic and heteroclinic solutions to ordinary differential equations, 530, /dk/atira/pure/core/keywords/engineering_mathematics_research_group, 510, resonance, homoclinic-doubling cascade, Bifurcations of limit cycles and periodic orbits in dynamical systems, Numerical bifurcation problems, Homoclinic and heteroclinic orbits for dynamical systems, inclination flip, Computational methods for bifurcation problems in dynamical systems, orbit flip
name=Engineering Mathematics Research Group, homoclinic bifurcation, Hyperbolic singular points with homoclinic trajectories in dynamical systems, /dk/atira/pure/core/keywords/engineering_mathematics_research_group; name=Engineering Mathematics Research Group, chaos, Homoclinic and heteroclinic solutions to ordinary differential equations, 530, /dk/atira/pure/core/keywords/engineering_mathematics_research_group, 510, resonance, homoclinic-doubling cascade, Bifurcations of limit cycles and periodic orbits in dynamical systems, Numerical bifurcation problems, Homoclinic and heteroclinic orbits for dynamical systems, inclination flip, Computational methods for bifurcation problems in dynamical systems, orbit flip
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