Simulation eines magnetischen Skyrmions, erstellt mithilfe der Mumax3 Software.
© Anne Bernand-Mantel

Herzlich willkommen zum Internetauftritt der

ARBEITSGRUPPE FÜR
Angewandte Analysis
PROF. DR. THERESA SIMON

Angewandte Mathematik: Institut für Analysis und Numerik
Westfälische Wilhelms-Universität Münster, Deutschland
Büro: Orléansring 10, 48149 Münster
Postanschrift: Einsteinstr. 62, 48149 Münster

 

Publikationen

Veröffentlicht

  • Bernand-Mantel A, Muratov CB, Simon TM. . ‘A quantitative description of skyrmions in ultrathin ferromagnetic films and rigidity of degree ±1 harmonic maps from from R² to S².’ Archive for Rational Mechanics and Analysis 239.
  • Simon TM. . ‘Rigidity of branching microstructures in shape memory alloys.’ Archive for Rational Mechanics and Analysis 241.
  • Simon TM. . ‘Quantitative aspects of the rigidity of branching microstructures in shape memory alloys via H-measures.’ SIAM Journal on Mathematical Analysis 53.
  • Bernand-Mantel A, Muratov CB, Simon TM. . ‘Unraveling the role of dipolar vs. Dzyaloshinskii-Moriya interaction in stabilizing compact magnetic skyrmions.’ Physical Review B 101.
  • Fischer J, Laux T, Simon TM. . ‘Convergence rates of the Allen-Cahn equation to mean curvature flow: A short proof based on relative entropies.’ SIAM Journal on Mathematical Analysis 52.
  • Muratov CB, Simon TM. . ‘A nonlocal isoperimetric problem with dipolar repulsion.’ Communications in Mathematical Physics 372.
  • Ayala D, Doering CR, Simon TM. . ‘Maximum palinstrophy amplification in the two-dimensional Navier-Stokes equations.’ Journal of Fluid Mechanics 837: 839-857. doi: 10.1017/jfm.2017.874.
  • Laux T, Simon TM. . ‘Convergence of the Allen-Cahn equation to multi-phase mean curvature flow.’ Communications on Pure and Applied Mathematics 71.
  • Simon TM. . Materials Science-inspired problems in the Calculus of Variations: Rigidity of shape memory alloys and multi-phase mean curvature flow Dissertationsschrift, Universität Leipzig.

Eingereicht / In Begutachtung