Rigidity and flexibility of entropies of boundary maps associated to Fuchsian groups

Abstract

Given a closed, orientable surface of constant negative curvature and genus g 2, we study the topological entropy and measure-theoretic entropy (with respect to a smooth invariant measure) of generalized Bowen--Series boundary maps. Each such map is defined for a particular fundamental polygon for the surface and a particular multi-parameter. We present and sketch the proofs of two strikingly different results: topological entropy is constant in this entire family ("rigidity"), while measure-theoretic entropy varies within Teichm\"uller space, taking all values ("flexibility") between zero and a maximum, which is achieved on the surface that admits a regular fundamental (8g-4)-gon. We obtain explicit formulas for both entropies. The rigidity proof uses conjugation to maps of constant slope, while the flexibility proof -- valid only for certain multi-parameters -- uses the realization of geodesic flow as a special flow over the natural extension of the boundary map.

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