Kyushu Journal of Mathematics
Online ISSN : 1883-2032
Print ISSN : 1340-6116
ISSN-L : 1340-6116
A CONVERGING LAGRANGIAN FLOW IN THE SPACE OF ORIENTED LINES
Brendan GUILFOYLEWilhelm KLINGENBERG
Author information
JOURNALS FREE ACCESS

2016 Volume 70 Issue 2 Pages 343-351

Details
Abstract

Under mean radius of curvature flow, a closed convex surface in Euclidean space is known to expand exponentially to infinity. In the three-dimensional case we prove that the oriented normals to the flowing surface converge to the oriented normals of a round sphere whose centre is the Steiner point of the initial surface, which remains constant under the flow.
To prove this we show that the oriented normal lines, considered as a surface in the space of all oriented lines, evolve by a parabolic flow which preserves the Lagrangian condition.Moreover, this flow converges to a holomorphic Lagrangian section, which forms the set of oriented lines through a point.
The coordinates of the Steiner point are projections of the support function into the first non-zero eigenspace of the spherical Laplacian and are given by explicit integrals of initial surface data.

Information related to the author
© 2016 Faculty of Mathematics, Kyushu University
Previous article Next article
feedback
Top