Différences
Ci-dessous, les différences entre deux révisions de la page.
Les deux révisions précédentes Révision précédente Prochaine révision | Révision précédente Prochaine révisionLes deux révisions suivantes | ||
anr-efi:publications [2020/07/03 18:37] – Jean Dolbeault | anr-efi:publications [2020/12/28 08:11] – Jean Dolbeault | ||
---|---|---|---|
Ligne 1: | Ligne 1: | ||
** 2020 ** | ** 2020 ** | ||
- | * // Stability in Gagliardo-Nirenberg inequalities.// | + | * // Stability in Gagliardo-Nirenberg inequalities.// |
- | * // Explicit constants in Harnack inequalities and regularity estimates, with an application to the fast diffusion equation.// Bonforte, M. & Dolbeault, J. & Nazaret, B. & Simonov, N. [[https://www.ceremade.dauphine.fr/~dolbeaul/Preprints/Fichiers/BDNS2020b.pdf | link]] | + | * // Explicit constants in Harnack inequalities and regularity estimates, with an application to the fast diffusion equation |
* // Fine properties of solutions to the Cauchy problem for a Fast Diffusion Equation with Caffarelli-Kohn-Nirenberg weights.// Bonforte, M. & Simonov, N. [[https:// | * // Fine properties of solutions to the Cauchy problem for a Fast Diffusion Equation with Caffarelli-Kohn-Nirenberg weights.// Bonforte, M. & Simonov, N. [[https:// | ||
* // Adaptive force biasing algorithms: new convergence results and tensor approximations of the bias.// Ehrlacher, V. & Lelièvre, T. & Monmarché, P. [[https:// | * // Adaptive force biasing algorithms: new convergence results and tensor approximations of the bias.// Ehrlacher, V. & Lelièvre, T. & Monmarché, P. [[https:// | ||
Ligne 8: | Ligne 8: | ||
* // Metastability for systems of interacting neurons.// Löcherbach, | * // Metastability for systems of interacting neurons.// Löcherbach, | ||
* // Uniform long-time and propagation of chaos estimates for mean field kinetic particles in non-convex landscapes.// | * // Uniform long-time and propagation of chaos estimates for mean field kinetic particles in non-convex landscapes.// | ||
- | * // Self improvement of the Bakry-Emery criterion for Poincaré inequalites and wasserstein | + | * // Self improvement of the Bakry-Emery criterion for Poincaré inequalites and Wasserstein |
* // Low lying eigenvalues and convergence to the equilibrium of some Piecewise Deterministic Markov Processes generators in the small temperature regime.// Guillin, A. & Nectoux, B. [[https:// | * // Low lying eigenvalues and convergence to the equilibrium of some Piecewise Deterministic Markov Processes generators in the small temperature regime.// Guillin, A. & Nectoux, B. [[https:// | ||
* // Infinite time blow-up in the Keller-Segel system: existence and stability.// | * // Infinite time blow-up in the Keller-Segel system: existence and stability.// | ||
Ligne 17: | Ligne 17: | ||
* // | * // | ||
* //Kinetic Fokker-Planck equation with mean field interactions.// | * //Kinetic Fokker-Planck equation with mean field interactions.// | ||
- | * //Uniform Poincaré, and logarithmic Sobolev inequalities for mean field models.// A. Guillin, B. Liu, L. Wu, C. Zhang. [[https:// | + | * //Uniform Poincaré, and logarithmic Sobolev inequalities for mean field models.// A. Guillin, B. Liu, L. Wu, C. Zhang. [[https:// |
* //A note on hypocoercivity for kinetic equations with heavy-tailed equilibrium.// | * //A note on hypocoercivity for kinetic equations with heavy-tailed equilibrium.// | ||
* // | * // |