Homoclinic Bifurcations with Nonhyperbolic Equilibria
Copyright policy )Homoclinic Bifurcations with Nonhyperbolic Equilibria
A general geometric approach is given for bifurcation problems with homoclinic orbits to nonhyperbolic equilibrium points of ordinary differential equations. It consists of a special normal form called admissible variables, exponential expansion, strong $\lambda $-lemma, and Lyapunov–Schmidt reduction for the Poincare maps under Sil’nikov variables. The method is based on the Center Manifold Theory, the contraction mapping principle, and the Implicit Function Theorem.
- University of Nebraska System United States
- University of Nebraska-Lincoln United States
homoclinic orbit, exponential expansion, Applied Mathematics, strong A-lemma, admissible variables, center manifold, Mathematics, saddle-node bifurcation, 510
homoclinic orbit, exponential expansion, Applied Mathematics, strong A-lemma, admissible variables, center manifold, Mathematics, saddle-node bifurcation, 510
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