Riemann Surfaces, Coverings, and Hypergeometric Functions
Riemann Surfaces, Coverings, and Hypergeometric Functions
This chapter deals with Riemann surfaces, coverings, and hypergeometric functions. It first considers the genus and Euler number of a Riemann surface before discussing Möbius transformations and notes that an automorphism of a Riemann surface is a biholomorphic map of the Riemann surface onto itself. It then describes a Riemannian metric and the Gauss-Bonnet theorem, which can be interpreted as a relation between the Gaussian curvature of a compact Riemann surface X and its Euler characteristic. It also examines the behavior of the Euler number under finite covering, along with finite subgroups of the group of fractional linear transformations PSL(2, C). Finally, it presents some basic facts about the classical Gauss hypergeometric functions of one complex variable, triangle groups acting discontinuously on one of the simply connected Riemann surfaces, and the hypergeometric monodromy group.
Keywords: finite covering, Riemann surface, Euler number, Möbius transformation, Riemannian metric, Gaussian curvature, Gauss hypergeometric function, triangle groups, monodromy group, fractional linear transformation
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