Filling area conjecture and ovalless real hyperelliptic surfaces
Copyright policy )Filling area conjecture and ovalless real hyperelliptic surfaces
We prove the filling area conjecture in the hyperelliptic case. In particular, we establish the conjecture for all genus 1 fillings of the circle, extending P. Pu's result in genus 0. We translate the problem into a question about closed ovalless real surfaces. The conjecture then results from a combination of two ingredients. On the one hand, we exploit integral geometric comparison with orbifold metrics of constant positive curvature on real surfaces of even positive genus. Here the singular points are Weierstrass points. On the other hand, we exploit an analysis of the combinatorics on unions of closed curves, arising as geodesics of such orbifold metrics.
21 pages, 3 figures, to appear in Geometric and Functional Analysis (GAFA)
- University of Pennsylvania United States
- University of Freiburg Germany
- Bar-Ilan University Israel
Mathematics - Differential Geometry, hyperelliptic surface, Geometric measure and integration theory, integral and normal currents in optimization, ovalless real surfaces, filling area, Geometric Topology (math.GT), Metric Geometry (math.MG), 53C23, Global Riemannian geometry, including pinching, Mathematics - Geometric Topology, 57N65, Mathematics - Metric Geometry, Differential Geometry (math.DG), 52C07, FOS: Mathematics, 53C23; 57N65; 52C07
Mathematics - Differential Geometry, hyperelliptic surface, Geometric measure and integration theory, integral and normal currents in optimization, ovalless real surfaces, filling area, Geometric Topology (math.GT), Metric Geometry (math.MG), 53C23, Global Riemannian geometry, including pinching, Mathematics - Geometric Topology, 57N65, Mathematics - Metric Geometry, Differential Geometry (math.DG), 52C07, FOS: Mathematics, 53C23; 57N65; 52C07
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