The Mullins–Sekerka problem via the method of potentials

Escher, Joachim; Matioc, Anca‐Voichita; Matioc, Bogdan‐Vasile

doi:10.1002/mana.202300350

Mathematische Nachrichten

2024

DOI: 10.1002/mana.202300350

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The Mullins–Sekerka problem via the method of potentials

Joachim Escher,

Anca‐Voichita Matioc,

Bogdan‐Vasile Matioc

Abstract: It is shown that the two‐dimensional Mullins–Sekerka problem is well‐posed in all subcritical Sobolev spaces with . This is the first result, where this issue is established in an unbounded geometry. The novelty of our approach is the use of the potential theory to formulate the model as an evolution problem with nonlinearities expressed by singular integral operators.

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Convergence to the planar interface for a nonlocal free‐boundary evolution

Otto,

Schubert,

Westdickenberg

2024

Comm Pure Appl Math

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We capture optimal decay for the Mullins–Sekerka evolution, a nonlocal, parabolic free boundary problem from materials science. Our main result establishes convergence of BV solutions to the planar profile in the physically relevant case of ambient space dimension three. Far from assuming small or well‐prepared initial data, we allow for initial interfaces that do not have graph structure and are not connected, hence explicitly including the regime of Ostwald ripening. In terms only of initially finite (not small) excess mass and excess surface energy, we establish that the surface becomes a Lipschitz graph within a fixed timescale (quantitatively estimated) and remains trapped within this setting. To obtain the graph structure, we leverage regularity results from geometric measure theory. At the same time, we extend a duality method previously employed for one‐dimensional PDE problems to higher dimensional, nonlocal geometric evolutions. Optimal algebraic decay rates of excess energy, dissipation, and graph height are obtained.

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Convergence to the planar interface for a nonlocal free‐boundary evolution

Otto,

Schubert,

Westdickenberg

2024

Comm Pure Appl Math

View full text Add to dashboard Cite

show abstract

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The Mullins–Sekerka problem via the method of potentials

Cited by 1 publication

References 46 publications

Convergence to the planar interface for a nonlocal free‐boundary evolution

Convergence to the planar interface for a nonlocal free‐boundary evolution

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