Combinatorial modulus and type of graphs |
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| Authors: | William E. Wood |
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| Affiliation: | Hendrix College, Department of Mathematics and Computer Science, 1600 Washington Avenue, Conway, AR, United States |
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| Abstract: | Let A be the 1-skeleton of a triangulated topological annulus. We establish bounds on the combinatorial modulus of a refinement A′, formed by attaching new vertices and edges to A, that depend only on the refinement and not on the structure of A itself. This immediately applies to showing that a disk triangulation graph may be refined without changing its combinatorial type, provided the refinement is not too wild. We also explore the type problem in terms of disk growth, proving a parabolicity condition based on a superlinear growth rate, which we also prove optimal. We prove our results with no degree restrictions in both the EEL and VEL settings and examine type problems for more general complexes and dual graphs. |
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| Keywords: | Discrete conformal geometry Extremal length Conformal modulus Type problem Outer spheres |
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