Trees and the dynamics of polynomials

Abstract

The basin of infinity of a polynomial map f : C C carries a natural foliation and a flat metric with singularities, making it into a metrized Riemann surface X(f). As f diverges in the moduli space of polynomials, the surface X(f) collapses along its foliation to yield a metrized simplicial tree (T,η), with limiting dynamics F : T T. In this paper we characterize the trees that arise as limits, and show they provide a natural boundary d compactifying the moduli space of polynomials of degree d. We show that (T,η,F) records the limiting behavior of multipliers at periodic points, and that any divergent meromorphic family of polynomials \ft(z) : t * \ can be completed by a unique tree at its central fiber. Finally we show that in the cubic case, the boundary of moduli space 3 is itself a tree. The metrized trees (T,η,F) provide a counterpart, in the setting of iterated rational maps, to the R-trees that arise as limits of hyperbolic manifolds.

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