Grafting, Pruning, and the Antipodal Map on Measured Laminations

Abstract:

Grafting a measured lamination on a hyperbolic surface defines a self-map of Teichmüller space, which is a homeomorphism by a result of Scannell and Wolf. In this paper we study the large-scale behavior of pruning, which is the inverse of grafting.

Specifically, for each conformal structure X $\in$ $\mathscr$ T(S), pruning X gives a map $\mathscr$ ML(S) $\to$ $\mathscr$ T(S). We show that this map extends to the Thurston compactification of $\mathscr$ T(S), and that its boundary values are the natural antipodal involution relative to X on the space of projective measured laminations.

We use this result to study Thurston's grafting coordinates on the space of $\mathbb {CP}$ ¹ structures on S. For each X $\in$ $\mathscr$ T(S), we show that the boundary of the space P(X) of $\mathbb {CP}$ ¹ structures on X in the compactification of the grafting coordinates is the graph $\Gamma$ (i_X) of the antipodal involution i_X : $\mathbb {P}$ $\mathscr$ ML(S) $\to$ $\mathbb {P}$ $\mathscr$ ML(S).

Grafting, Pruning, and the Antipodal Map on Measured Laminations

David Dumas

Abstract: