Convergence Stability for Ricci Flow
Differential Geometry
2018-05-03 v1 Analysis of PDEs
Abstract
The principle of convergence stability for geometric flows is the combination of the continuous dependence of the flow on initial conditions, with the stability of fixed points. It implies that if the flow from an initial state exists for all time and converges to a stable fixed point, then the flows of solutions that start near also converge to fixed points. We show this in the case of the Ricci flow, carefully proving the continuous dependence on initial conditions. Symmetry assumptions on initial geometries are often made to simplify geometric flow equations. As an application of our results, we extend known convergence results to open sets of these initial data, which contain geometries with no symmetries.
Keywords
Cite
@article{arxiv.1805.00539,
title = {Convergence Stability for Ricci Flow},
author = {Eric Bahuaud and Christine Guenther and James Isenberg},
journal= {arXiv preprint arXiv:1805.00539},
year = {2018}
}
Comments
18 pages