Abstract
A $$(\gamma ,n)$$ -gonal pair is a pair (S, f), where S is a closed Riemann surface and $$f:S \rightarrow R$$ is a degree n holomorphic map onto a closed Riemann surface R of genus $$\gamma $$ . If the signature of (S, f) is of hyperbolic type, then it admits a uniformizing pair $$(\varGamma ,G)$$ , where G is a Fuchsian group acting on the unit disc $${{\mathbb {D}}}$$ containing $$\varGamma $$ as an index n subgroup, such that f is induced by the inclusion $$\varGamma \le G$$ . The uniformizing pair is uniquely determined by (S, f), up to conjugation by holomorphic automorphisms of $${{\mathbb {D}}}$$ , and it permits to provide a natural complex orbifold structure on the Hurwitz space parametrizing (twisted) isomorphic classes of pairs topologically equivalent to (S, f). In order to produce certain compactifications of these Hurwitz spaces, one needs to consider the so called stable $$(\gamma ,n)$$ -gonal pairs, which are natural geometrical deformations of $$(\gamma ,n)$$ -gonal pairs. Due to the above, it seems interesting to search for uniformizations of stable $$(\gamma ,n)$$ -gonal pairs, in terms of certain class of Kleinian groups. In this paper we review such uniformizations by using noded Fuchsian groups, obtained from the noded Beltrami differentials of Fuchsian groups that were previously studied by Alexander Vasil’ev and the author, and which provide uniformizations of stable Riemann orbifolds. These uniformizations permit to obtain a compactification of the Hurwitz spaces together a complex orbifold structure, these being quotients of the augmented Teichmuller space of G by a suitable finite index subgroup of its modular group.
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