Infinitely Many Moduli of Stability at the Dissipative Boundary of Chaos

Abstract

In the family of area-contracting H\'enon-like maps with zero topological entropy we show that there are maps with infinitely many moduli of stability. Thus one cannot find all the possible topological types for non-chaotic area-contracting H\'enon-like maps in a family with finitely many parameters. A similar result, but for the chaotic maps in the family, became part of the folklore a short time after H\'enon used such maps to produce what was soon conjectured to be the first non-hyperbolic strange attractor in R2. Our proof uses recent results about infinitely renormalisable area-contracting H\'enon-like maps; it suggests that the number of parameters needed to represent all possible topological types for area-contracting H\'enon-like maps whose sets of periods of their periodic orbits are finite (and in particular are equal to \1,\, 2,…,\,2n-1\ or an initial segment of this n-tuple) increases with the number of periods. In comparison, among Ck-embeddings of the 2-disk with k≥ 1, the maximal moduli number for non-chaotic but non area-contracting maps in the interior of the set of zero-entropy is infinite.