Stability of Non-Hyperbolic Sets (2511.12926v1)

Abstract: In families of unfoldings we find codimension one laminations consisting of maps exibiting an invariant, non-hyperbolic Cantor set containing a Collet-Eckmann point whose orbit is dense in the set. The topology of this Cantor set remains unchanged along the leaves of the lamination, ensuring codimension one stability. Furthermore, within this lamination we identify a sublamination whose leaves contain maps with infinitely many sinks accumulating on the non-hyperbolic Cantor set containing the Collet-Eckmann point. These results provide a new perspective on the stability of chaotic non-hyperbolic dynamics in two-dimensional systems and reveal surprising coexistence phenomena that highlight the richness and complexity of such dynamics.