Vortices in the magnetic Ginzburg-Landau model E Sandier, S Serfaty Springer Science & Business Media, 2008 | 496 | 2008 |
Gamma‐convergence of gradient flows with applications to Ginzburg‐Landau E Sandier, S Serfaty Communications on Pure and Applied Mathematics: A Journal Issued by the …, 2004 | 371 | 2004 |
Gamma-convergence of gradient flows on Hilbert and metric spaces and applications S Serfaty Discrete Contin. Dyn. Syst 31 (4), 1427-1451, 2011 | 199 | 2011 |
Bogoliubov spectrum of interacting Bose gases M Lewin, PT Nam, S Serfaty, JP Solovej Communications on Pure and Applied Mathematics 68 (3), 413-471, 2015 | 194 | 2015 |
Mean field limit for Coulomb-type flows S Serfaty | 174 | 2020 |
From the Ginzburg-Landau model to vortex lattice problems E Sandier, S Serfaty Communications in Mathematical Physics 313, 635-743, 2012 | 173 | 2012 |
A deterministic‐control‐based approach motion by curvature R Kohn, S Serfaty Communications on Pure and Applied Mathematics: A Journal Issued by the …, 2006 | 165 | 2006 |
Large deviation principle for empirical fields of Log and Riesz gases T Leblé, S Serfaty Inventiones mathematicae 210, 645-757, 2017 | 151 | 2017 |
2D Coulomb gases and the renormalized energy E Sandier, S Serfaty | 139 | 2015 |
Local minimizers for the Ginzburg–Landau energy near critical magnetic field: Part I S Serfaty Communications in Contemporary Mathematics 1 (02), 213-254, 1999 | 137 | 1999 |
Coulomb gases and Ginzburg–Landau vortices S Serfaty | 127 | 2015 |
Global minimizers for the Ginzburg–Landau functional below the first critical magnetic field E Sandier, S Serfaty Annales de l'Institut Henri Poincaré C, Analyse non linéaire 17 (1), 119-145, 2000 | 121 | 2000 |
Higher‐dimensional Coulomb gases and renormalized energy functionals N Rougerie, S Serfaty Communications on Pure and Applied Mathematics 69 (3), 519-605, 2016 | 118 | 2016 |
Fluctuations of two dimensional Coulomb gases T Leblé, S Serfaty Geometric and Functional Analysis 28, 443-508, 2018 | 117 | 2018 |
A rigorous derivation of a free-boundary problem arising in superconductivity É Sandier, S Serfaty Annales Scientifiques de l’École Normale Supérieure 33 (4), 561-592, 2000 | 114 | 2000 |
On the energy of type-II superconductors in the mixed phase E Sandier, S Serfaty Reviews in Mathematical Physics 12 (09), 1219-1257, 2000 | 105 | 2000 |
Next order asymptotics and renormalized energy for Riesz interactions M Petrache, S Serfaty Journal of the Institute of Mathematics of Jussieu 16 (3), 501-569, 2017 | 97 | 2017 |
A gradient flow approach to an evolution problem arising in superconductivity L Ambrosio, S Serfaty Communications on Pure and Applied Mathematics: A Journal Issued by the …, 2008 | 95 | 2008 |
Néel and cross-tie wall energies for planar micromagnetic configurations F Alouges, T Riviere, S Serfaty ESAIM: Control, Optimisation and Calculus of Variations 8, 31-68, 2002 | 94 | 2002 |
Limiting domain wall energy for a problem related to micromagnetics T Riviere, S Serfaty Communications on Pure and Applied Mathematics: A Journal Issued by the …, 2001 | 93 | 2001 |