Yamabe flow on manifolds with edges
Copyright policy )Yamabe flow on manifolds with edges
Let be a compact oriented Riemannian manifold with an incomplete edge singularity. This article shows that it is possible to evolve g by the Yamabe flow within a class of singular edge metrics. As the main analytic step we establish parabolic Schauder‐type estimates for the heat operator on certain Hölder spaces adapted to the singular edge geometry. We apply these estimates to obtain local existence for a variety of quasilinear equations, including the Yamabe flow. This provides a setup for a subsequent discussion of the Yamabe problem using flow techniques in the singular setting.
- University of Bonn Germany
- Antioch University Santa Barbara United States
Schauder estimates, Mathematics - Differential Geometry, heat equation, incomplete edge metrics, Heat and other parabolic equation methods for PDEs on manifolds, Mathematics - Analysis of PDEs, Differential Geometry (math.DG), Yamabe flow, FOS: Mathematics, Geometric evolution equations (mean curvature flow, Ricci flow, etc.), Heat kernel, Analysis of PDEs (math.AP), 53C44, 58J35, 35K08
Schauder estimates, Mathematics - Differential Geometry, heat equation, incomplete edge metrics, Heat and other parabolic equation methods for PDEs on manifolds, Mathematics - Analysis of PDEs, Differential Geometry (math.DG), Yamabe flow, FOS: Mathematics, Geometric evolution equations (mean curvature flow, Ricci flow, etc.), Heat kernel, Analysis of PDEs (math.AP), 53C44, 58J35, 35K08
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