Asymptotic Analysis of Models for Geometric Motions

Description

<p dir="ltr">In Chapter 1, we introduce geometric motions from the general perspective of gradient flows. Here we develop the basic framework in which to pose the two main results of this thesis.</p><p dir="ltr">In Chapter 2, we examine the pinch-off phenomenon for a tubular surface moving by surface diffusion. We prove the existence of a one parameter family of pinching profiles obeying a long wavelength approximation of the dynamics.</p><p dir="ltr">In Chapter 3, we study a diffusion-based numerical scheme for curve shortening flow. We prove that the scheme is one time-step consistent.</p>

Links & Downloads

1. 10.25394/pgs.25213649.v1

Tags

Numerical analysis

Partial differential equations

partial differential equations (PDE)

motion by mean curvature

Mean Curvature Flow

surface diffusion models

gradient flows

diffusion generated motion

codimension-2

pinch-off dynamics

consistency estimates

heat equation

axisymmetric surface diffusion

Geometric PDEs

one-parameter family

singularity formation

Numerical analysis.

convergence rate

Differential equations.

Ordinary Differential Equations (ODE)

Additional Fields

Identifer	oai:union.ndltd.org:purdue.edu/oai:figshare.com:article/25213649
Date	13 February 2024
Creators	Gavin Ainsley Glenn (17958005)
Source Sets	Purdue University
Detected Language	English
Type	Text, Thesis
Rights	CC BY 4.0
Relation	https://figshare.com/articles/thesis/Asymptotic_Analysis_of_Models_for_Geometric_Motions/25213649