Uniform bounds for Weil–Petersson curvatures
Copyright policy )Uniform bounds for Weil–Petersson curvatures
We find bounds for Weil-Petersson holomorphic sectional curvature, and the Weil-Petersson curvature operator in several regimes, that do not depend on the topology of the underlying surface. Among other results, we show that the minimal (most negative) eigenvalue of the curvature operator at any point in the Teichm��ller space $\Teich(S_g)$ of a closed surface $S_g$ of genus $g$ is uniformly bounded away from zero. Restricting to a thick part of $\Teich(S_g)$, we show that the minimal eigenvalue is uniformly bounded below by an explicit constant which does not depend on the topology of the surface but only on the given bound on injectivity radius. We also show that the minimal Weil-Petersson holomorphic sectional curvature of a sufficiently thick hyperbolic surface is comparable to $-1$.
To appear in Proceedings of the London Mathematical Society, 41 pages
- University of Illinois at Urbana Champaign United States
- Rice University United States
- Stanford University United States
- University of Maryland University College United States
- Tsinghua University China (People's Republic of)
Mathematics - Differential Geometry, Mathematics - Complex Variables, Weil-Petersson curvature, Geometric Topology (math.GT), Methods of global Riemannian geometry, including PDE methods; curvature restrictions, Mathematics - Geometric Topology, Differential Geometry (math.DG), Weil-Petersson metric, FOS: Mathematics, Moduli of Riemann surfaces, Teichmüller theory (complex-analytic aspects in several variables), Complex Variables (math.CV), Teichmüller theory for Riemann surfaces
Mathematics - Differential Geometry, Mathematics - Complex Variables, Weil-Petersson curvature, Geometric Topology (math.GT), Methods of global Riemannian geometry, including PDE methods; curvature restrictions, Mathematics - Geometric Topology, Differential Geometry (math.DG), Weil-Petersson metric, FOS: Mathematics, Moduli of Riemann surfaces, Teichmüller theory (complex-analytic aspects in several variables), Complex Variables (math.CV), Teichmüller theory for Riemann surfaces
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