Mathematics

Mathematics
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Interfaces and Free Boundaries. 4, no. 1, pp. 89-109. 2002

A numerical scheme for axisymmetric solutions of curvature driven free boundary problems, with applications to the Willmore Flow

Uwe Mayer, Gieri Simonett

We present a numerical scheme for radially symmetric solutions to curvature driven moving boundary problems governed by a local law of motion, e.g. the mean curvature flow, the surface diffusion flow, and the Willmore flow. We then present several numerical experiments for the Willmore flow. In particular, we provide numerical evidence that the Willmore flow can develop singularities in finite time.

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Archiv der Mathematik, 77, issue 5, pp. 434-448. 2001

Loss of convexity for a modified Mullins-Sekerka model arising in diblock copolymer melts

Joachim Escher, Uwe Mayer

This modified (two-sided) Mullins-Sekerka model is a nonlocal evolution model for closed hypersurfaces, which appears as a singular limit of a modified Cahn-Hilliard equation describing microphase separation of diblock copolymer.

Under this evolution the propagating interfaces maintain the enclosed volumes of the two phases. We will show by means of an example that this model does not preserve convexity in two space dimensions.

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Comput. Appl. Math., 20, no. 3, pp. 361-379. 2001

Numerical solutions for the surface diffusion flow in three space dimensions

The surface diffusion flow is a moving boundary problem that has a gradient flow structure. This gradient flow structure suggests an implicit finite differences approach to compute numerical solutions.

The resulting numerical scheme will allow to compute the flow for any smooth orientable immersed initial surface. Observations include the loss of embeddedness for some initially embedded surface, the creation of singularities, and the long term behavior of solutions.

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Experimental Math,10, no. 2, pp. 103-107. 2001

A singular example for the averaged mean curvature flow

An example of an embedded curve is presented which under numerical simulation of the averaged mean curvature flow develops first a loss of embeddedness, and then a singularity where the curvature becomes infinite, all in finite time.

This leads to the conjecture that not all smooth embedded curves persist for all times under the averaged mean curvature flow.

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Differential Integral Equations, 13, pp. 1189-1199. 2000

Self-intersections for the surface diffusion and the volume preserving mean curvature flow

Uwe Mayer, Gieri Simonett

We prove that the surface diffusion flow and the volume preserving mean curvature flow can drive embedded hypersurfaces to self-intersections.

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Proceedings of the Seventh International Conference on Evolution Equations: Applications to Physics, Industry, Life Sciences and Economics – EVEQ2000

Self-intersections for the Willmore Flow

Uwe Mayer, Gieri Simonett

We prove that the Willmore flow can drive embedded surfaces to self-intersections in finite time

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J. Math. Anal. Appl., 234, pp. 660-674. 1999

Classical solutions for diffusion-induced grain-boundary motion

Uwe Mayer, Gieri Simonett

We prove existence and uniqueness of classical solutions for the motion of hypersurfaces driven by mean curvature and diffusion of a solute along the surface. This free boundary problem involves solving a coupled system of fully nonlinear partial differential equations.

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Nonlinear Partial Differential Equations, Gui-Qiang Chen and Emmanuele DiBenedetto (editors), Amer. Math. Soc., Providence, RI, pp. 231-240, 1999

On diffusion-induced grain-boundary motion

Uwe Mayer, Gieri Simonett

We consider a sharp interface model which describes diffusion-induced grain-boundary motion in a poly-crystalline material. This model leads to a fully nonlinear coupled system of partial differential equations. We show existence and uniqueness of smooth solutions.

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Comm. Anal. Geom., 6, no. 2, pp. 199-253. 1998

Gradient flows on nonpositively curved metric spaces and harmonic maps

The notion of gradient flows is generalized to a metric space setting without any linear structure. The metric spaces considered are a generalization of Hilbert spaces. The properties of such metric spaces are used to set up a finite-difference scheme of variational form.

The proof of the Crandall-Liggett generation theorem is adapted to show convergence. The resulting flow generates a strongly continuous semigroup of Lipschitz-continuous mappings, is Lipschitz continuous in time for positive time, and decreases the energy functional along a path of steepest descent.

In case the underlying metric space is a Hilbert space, the solutions resulting from this new theory coincide with those obtained by classical methods. As an application, the harmonic map flow problem for maps from a manifold into a nonpositively curved metric space is considered, and the existence of a solution to the initial boundary value problem is established.

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SIAM J. Math. Anal., 29, no. 6, pp. 1419-1433. 1998

The surface diffusion flow for immersed hypersurfaces

Joachim Escher, Uwe Mayer, Gieri Simonett

We show existence and uniqueness of classical solutions for the motion of immersed hypersurfaces driven by surface diffusion. If the initial surface is embedded and close to a sphere, we prove that the solution exists globally and converges exponentially fast to a sphere. Furthermore, we provide numerical simulations showing the creation of singularities for immersed curves.

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