On Dynamical Gaskets Generated by Rational Maps, Kleinian Groups, and Schwarz Reflections

Abstract

According to the Circle Packing Theorem, any triangulation of the Riemann sphere can be realized as a nerve of a circle packing. Reflections in the dual circles generate a Kleinian group H whose limit set is an Apollonian-like gasket H. We design a surgery that relates H to a rational map g whose Julia set Jg is (non-quasiconformally) homeomorphic to H. We show for a large class of triangulations, however, the groups of quasisymmetries of H and Jg are isomorphic and coincide with the corresponding groups of self-homeomorphisms. Moreover, in the case of H, this group is equal to the group of M\"obius symmetries of H, which is the semi-direct product of H itself and the group of M\"obius symmetries of the underlying circle packing. In the case of the tetrahedral triangulation (when H is the classical Apollonian gasket), we give a piecewise affine model for the above actions which is quasiconformally equivalent to g and produces H by a David surgery. We also construct a mating between the group and the map coexisting in the same dynamical plane and show that it can be generated by Schwarz reflections in the deltoid and the inscribed circle.