Kilian Koch

Publikationen

• Well-posedness of half-harmonic map heat flows for rough initial data
  arXiv (2025-04-09) Preprint
  Von Kilian Koch, Christof Melcher
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  Abstract anzeigen

  We adopt the Koch-Tataru theory for the Navier-Stokes equations, based on Carleson measure estimates, to develop a scaling-critical low-regularity framework for half-harmonic map heat flows. This nonlocal variant of the harmonic map heat flow has been studied recently in connection with free boundary minimal surfaces. We introduce a new class of initial data for the flow, broader than the conventional energy or Sobolev spaces considered in previous work, for which we establish existence, uniqueness, and continuous dependence. The class particularly includes homogeneous initial data that give rise to self-similar expanders.

Vorträge

• 
  Thresholding Scheme for the Half-Harmonic Map Heat Flow

  Young Researchers Workshop on Geometric Analysis, Singular PDEs and Numerics, RWTH Aachen University · 1. Juni 2026

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  Abstract anzeigen

  We study the half-harmonic map heat flow, the gradient flow of the half-Dirichlet energy for sphere-valued maps on the torus. Motivated by the thresholding algorithm of Laux and Yip for mean curvature flow, we replace the classical Gaussian kernel by the Poisson kernel, the semigroup kernel associated to the half-Laplacian, and alternate convolution with pointwise projection onto the sphere. We prove that the resulting iterates converge, along a subsequence, to a weak solution of the flow attaining the initial data in H^1/2 and satisfying an energy inequality. We also consider a truncated variant of the scheme, where the Poisson kernel is projected onto the first N Fourier modes. Here convergence holds under the condition that hN − d(d+1) log(1/h) → ∞, meaning N must grow slightly faster than log(1/h)/h as h → 0. This truncated version is intended as a first step toward a fully implementable numerical method. As a complement, we establish weak-strong uniqueness: a weak solution satisfying the energy inequality must coincide with any strong solution sharing the same initial data, showing in particular that the scheme converges to the strong solution whenever one exists.
• 
  Well-posedness of half-harmonic map heat flows for rough initial data

  3 City Seminar 2025 (invited talk), TU Eindhoven, Netherlands · 1. Oktober 2025

  Folien (PDF)

  Abstract anzeigen

  We adopt the Koch–Tataru theory for the Navier–Stokes equations, based on Carleson measure estimates, to develop a scaling-critical low-regularity framework for half-harmonic map heat flows. This nonlocal variant of the harmonic map heat flow has been studied recently in connection with free boundary minimal surfaces. We introduce a new class of initial data for the flow, broader than the conventional energy or Sobolev spaces considered in previous work, for which we establish existence, uniqueness, and continuous dependence. The class particularly includes homogeneous initial data that give rise to self-similar expanders.

Organisierte Veranstaltungen

• Young Researchers Workshop on Geometric Analysis, Singular PDEs and Numerics Co-organizer

  Joint workshop of CRC 1481, EDDy and IntComSin (FAU Erlangen-Nürnberg / University of Regensburg), RWTH Aachen University · 1. Juni 2026 – 3. Juni 2026

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Forschungsprojekt & Förderung

Projekt C01: Singularity formation in dissipative harmonic flows

Meine Stelle wird seit April 2024 von der Deutschen Forschungsgemeinschaft (DFG) über den SFB 1481 Sparsity and Singular Structures (Projektnummer 442047500), Teilprojekt C01, finanziert.

Projektseite ↗  |  SFB 1481 ↗