Prime orbit theorems for expanding Thurston maps: Genericity of strong non-integrability condition
Abstract
In the second paper [LZ24b] of this series, we obtained an analog of the prime number theorem for a class of branched covering maps on the 2-sphere S2 called expanding Thurston maps, which are topological models of some non-uniformly expanding rational maps without any smoothness or holomorphicity assumption. More precisely, the number of primitive periodic orbits, ordered by a weight on each point induced by a non-constant (eventually) positive real-valued H\"older continuous function on S2 satisfying the α-strong non-integrability condition, is asymptotically the same as the well-known logarithmic integral, with an exponential error bound. In this third and last paper of the series, we show that the α-strong non-integrability condition is generic in the class of α-H\"older continuous functions.
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