Victoria Rayskin
Published 2024-08-21Version 1
Let $f: M \to M$ denote a diffeomorphism of a smooth manifold $M$. Let $p$ in $M$ be its hyperbolic fixed point with stable and unstable manifolds $W_S$ and $W_U$, respectively. Assume that $W_S$ is a curve. Suppose that $W_U$ and $W_S$ have a degenerate homoclinic crossing at a point $B\ne p$, i.e., they cross at $B$ tangentially with a finite order of contact. It is shown that, subject to $C^1$-linearizability and certain conditions on the invariant manifolds, a transverse homoclinic crossing will arise arbitrarily close to $B$. This proves the existence of a horseshoe structure arbitrarily close to $B$, and extends a similar planar result of Homburg and Weiss.
Journal: Discrete and Continuous Dynamical Systems, 2005, 12(3): 465-480
Existence of attractors, homoclinic tangencies and singular hyperbolicity for flows
Solvable subgroup theorem, length function and topological entropy
A Necessary and Sufficient Condition for a Self-Diffeomorphism of a Smooth Manifold to be the Time-1 Map of the Flow of a Differential Equation
![QR code for arXiv:2408.11314 [math.DS]](http://oss.arxitics.com/images/favicon.svg)