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Parameterized discrete uniformization theorems and curvature flows for polyhedral surfaces, II

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 Added by Xu Xu
 Publication date 2021
  fields
and research's language is English




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This paper investigates the combinatorial $alpha$-curvature for vertex scaling of piecewise hyperbolic metrics on polyhedral surfaces, which is a parameterized generalization of the classical combinatorial curvature. A discrete uniformization theorem for combinatorial $alpha$-curvature is established, which generalizes Gu-Guo-Luo-Sun-Wus discrete uniformization theorem for classical combinatorial curvature. We further introduce combinatorial $alpha$-Yamabe flow and combinatorial $alpha$-Calabi flow for vertex scaling to find piecewise hyperbolic metrics with prescribed combinatorial $alpha$-curvatures. To handle the potential singularities along the combinatorial curvature flows, we do surgery along the flows by edge flipping. Using the discrete conformal theory established by Gu-Guo-Luo-Sun-Wu, we prove the longtime existence and convergence of combinatorial $alpha$-Yamabe flow and combinatorial $alpha$-Calabi flow with surgery, which provide effective algorithms for finding piecewise hyperbolic metrics with prescribed combinatorial $alpha$-curvatures.



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A discrete conformality for hyperbolic polyhedral surfaces is introduced in this paper. This discrete conformality is shown to be computable. It is proved that each hyperbolic polyhedral metric on a closed surface is discrete conformal to a unique hyperbolic polyhedral metric with a given discrete curvature satisfying Gauss-Bonnet formula. Furthermore, the hyperbolic polyhedral metric with given curvature can be obtained using a discrete Yamabe flow with surgery. In particular, each hyperbolic polyhedral metric on a closed surface with negative Euler characteristic is discrete conformal to a unique hyperbolic metric.
122 - Xu Xu , Chao Zheng 2021
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