Representation formulae for higher order curvature flows

James A. McCoy; Phil Schrader; Glen Wheeler

doi:10.1016/j.jde.2022.10.011

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Representation formulae for higher order curvature flows

Journal article

Open access

Peer reviewed

Representation formulae for higher order curvature flows

James A. McCoy, Phil Schrader and Glen Wheeler

Journal of Differential Equations, Vol.344, pp.1-43

2023

DOI: https://doi.org/10.1016/j.jde.2022.10.011

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Abstract

Curvature flow

Higher order partial differential equation

Parabolic partial differential equation

In [25], Smoczyk showed that expansion of convex curves and hypersurfaces by the reciprocal of the harmonic mean curvature gives rise to a linear second order equation for the evolution of the support function, with corresponding representation formulae for solutions. In this article we consider L2(dθ)-gradient flows for a class of higher-order curvature functionals. These give rise to higher order linear parabolic equations for which we derive similar representation formulae for their solutions. Solutions exist for all time under natural conditions on the initial curve and converge exponentially fast in the smooth topology to multiply-covered circles. We consider both closed, embedded convex curves and closed, convex curves of higher rotation number. We give some corresponding remarks where relevant on open convex curves. We also consider corresponding ‘globally constrained’ flows which preserve the length or enclosed area of the evolving curve and a higher order approach to the Yau problem of evolving one convex planar curve to another. In an Appendix, we give some related second order results, including a version of the Yau problem for star-shaped curves.

Details

Title: Representation formulae for higher order curvature flows
Authors/Creators: James A. McCoy - University of Newcastle Australia
Phil Schrader - College of Science, Health, Engineering and Education, Mathematics and Statistics, Murdoch University, Murdoch, WA 6150, Australia
Glen Wheeler - University of Wollongong
Publication Details: Journal of Differential Equations, Vol.344, pp.1-43
Publisher: Elsevier Inc
Grant note: DP180100431 / Australian Research Council (https://doi.org/10.13039/501100000923) University of Newcastle College of Engineering, Science and Environment
Identifiers: 991005599161707891
Murdoch Affiliation: Murdoch University
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration
Citation topics: 9 Mathematics; 9.50 Applied Statistics & Probability; 9.50.415 Harmonic Maps
Web Of Science research areas: Mathematics
ESI research areas: Mathematics