
arXiv: 1003.4467
AbstractThurston introduced $\sigma _d$-invariant laminations (where $\sigma _d(z)$ coincides with $z^d:\mathbb S ^1\to \mathbb S ^1$, $d\ge 2$) and defined wandering $k$-gons as sets ${\mathbf {T}}\subset \mathbb S ^1$ such that $\sigma _d^n({\mathbf {T}})$ consists of $k\ge 3$ distinct points for all $n\ge 0$ and the convex hulls of all the sets $\sigma _d^n({\mathbf {T}})$ in the plane are pairwise disjoint. He proved that $\sigma _2$ has no wandering $k$-gons. Call a lamination with wandering $k$-gons a WT-lamination. In a recent paper, it was shown that uncountably many cubic WT-laminations, with pairwise non-conjugate induced maps on the corresponding quotient spaces $J$, are realizable as cubic polynomials on their (locally connected) Julia sets. Here we use a new approach to construct cubic WT-laminations with the above properties so that any wandering branch point of $J$ has a dense orbit in each subarc of $J$ (we call such orbits condense), and show that critical portraits corresponding to such laminations are dense in the space ${\mathcal A}_3$of all cubic critical portraits.
37F10, 37F20, WT-lamination, cubic WT-laminations, dense orbit, critical portraits, FOS: Mathematics, Julia sets, Dynamical Systems (math.DS), Small divisors, rotation domains and linearization in holomorphic dynamics, Mathematics - Dynamical Systems, cubic polynomials
37F10, 37F20, WT-lamination, cubic WT-laminations, dense orbit, critical portraits, FOS: Mathematics, Julia sets, Dynamical Systems (math.DS), Small divisors, rotation domains and linearization in holomorphic dynamics, Mathematics - Dynamical Systems, cubic polynomials
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