| Both sides previous revisionPrevious revisionNext revision | Previous revision |
| start [2023/01/21 08:33] – [Encadrement de stages de niveau M2:] nouri | start [2024/02/04 16:02] (current) – [Publications] nouri |
|---|
| |
| ====== Publications ====== | ====== Publications ====== |
| * Arkeryd, L., Nouri, A., 'On the evolutionary velocity-discrete Boltzmann equation', Preprint 2023, hal-03909146v1 | * Arkeryd, L., Nouri, A., 'Stationary solutions to the Boltzmann equation in the plane', accepté pour publication dans Quarterly in Applied Mathematics (2024), hal-04085387v1. |
| |
| * Ghendrih, P., Mehrenberger, M., Nouri, A., 'Kinetic equations and Correlation evolution', Preprint 2022 | * Ghendrih, P., Mehrenberger, M., Nouri, A., 'Kinetic equations and Correlation evolution', Preprint (2022). |
| | |
| * Arkeryd, L., Nouri, A., ‘Discrete velocity Boltzmann equations in the plane: stationary solutions', accepté pour publication, à paraitre en 2023 dans Analysis and PDE, arXiv: 2112.08640, hal-03523783, {{:arkerydnouri2021.pdf|}} | * Arkeryd, L., Nouri, A., ‘Discrete velocity Boltzmann equations in the plane: stationary solutions', Analysis and PDE 16-8 (2023), 1869-1884, arXiv: 2112.08640, hal-03523783, {{:arkerydnouri2021.pdf|}} |
| |
| * Giorgi, P.-A., Nouri, A., 'On a Vlasov-Poisson system in a bounded domain with direct reflection boundary conditions', Annales Henri Lebesgue, Volume 5, 703-727, 2022, hal-02471632, {{:giorginouri2021.pdf|}} | * Giorgi, P.-A., Nouri, A., 'On a Vlasov-Poisson system in a bounded domain with direct reflection boundary conditions', Annales Henri Lebesgue 5 (2022), 703-727, hal-02471632, {{:giorginouri2021.pdf|}} |
| |
| * Arkeryd, L., Nouri, A., ‘Stationary Solutions to the two-dimensional Broadwell Model', Documenta Mathematica 25, 2023-2048, 2020, hal-02520758 | * Arkeryd, L., Nouri, A., ‘Stationary Solutions to the two-dimensional Broadwell Model', Documenta Mathematica 25 (2020), 2023-2048, hal-02520758 |
| |
| * Arkeryd, L., Nouri, A., ‘On stationary solutions to normal, coplanar discrete Boltzmann equation models', Communications in Mathematical Sciences 18 (8), 2215-2234, 2020, arXiv:2007.02094, hal-02520761 | * Arkeryd, L., Nouri, A., ‘On stationary solutions to normal, coplanar discrete Boltzmann equation models', Communications in Mathematical Sciences 18-8 (2020), 2215-2234, arXiv:2007.02094, hal-02520761 |
| |
| * Arkeryd, L., Nouri, A., ‘On a Boltzmann equation for Haldane statistics’, Kinetic and Related Models 12 (2), 323-346, 2019, {{:haldane2019.pdf|}}, hal-03526977 | * Arkeryd, L., Nouri, A., ‘On a Boltzmann equation for Haldane statistics’, Kinetic and Related Models 12-2 (2019), 323-346, {{:haldane2019.pdf|}}, hal-03526977 |
| |
| * Nouri, A., Schmeiser, C., 'Aggregated steady states of a kinetic model for chemotaxis', Kinetic and Related Models 10, 313-327, 2017, {{:nouri-schmeiser2017.pdf|}}, hal-01580557 | * Nouri, A., Schmeiser, C., 'Aggregated steady states of a kinetic model for chemotaxis', Kinetic and Related Models 10 (2017), 313-327, {{:nouri-schmeiser2017.pdf|}}, hal-01580557 |
| | |
| * Arkeryd, L., Nouri, A., 'On the well-posedness of the Cauchy problem for a space-dependent Boltzmann-Nordheim boson equation', Communications in Mathematical Sciences 15 (5), 1247-1264, 2017, {{::CMS2017-Arkeryd-Nouri.pdf|}}, hal-01579351 | * Arkeryd, L., Nouri, A., 'On the well-posedness of the Cauchy problem for a space-dependent Boltzmann-Nordheim boson equation', Communications in Mathematical Sciences 15-5 (2017), 1247-1264, {{::CMS2017-Arkeryd-Nouri.pdf|}}, hal-01579351 |
| | |
| * Carles, R., Nouri, A., 'Monokinetic solutions to a singular Vlasov equation from a semiclassical perspective', Asymptotic Analysis 102, 99-117, 2017, {{::Carles-Nouri-2017.pdf}}, arXiv: 1506.07339, hal-01167342v2 | * Carles, R., Nouri, A., 'Monokinetic solutions to a singular Vlasov equation from a semiclassical perspective', Asymptotic Analysis 102 (2017), 99-117, {{::Carles-Nouri-2017.pdf}}, arXiv: 1506.07339, hal-01167342v2 |
| | |
| * Arkeryd, L., Nouri, A., 'Well-posedness of the Cauchy problem for a space-dependent anyon Boltzmann equation', SIAM J. Math. Anal. 47-6, 4720-4742, 2015, {{::SIAM2015-Arkeryd-Nouri.pdf}}, arXiv:1406.0265, hal-01261187 | * Arkeryd, L., Nouri, A., 'Well-posedness of the Cauchy problem for a space-dependent anyon Boltzmann equation', SIAM J. Math. Anal. 47-6 (2015), 4720-4742, {{::SIAM2015-Arkeryd-Nouri.pdf}}, arXiv:1406.0265, hal-01261187 |
| | |
| * Arkeryd, L., Nouri, A., 'Bose condensates in interaction with excitations - a two component space-dependent model close to equilibrium', Journal of Statistical Physics, 160, 209-238, 2015,{{::JSP-PublishedVersion-Arkeryd-Nouri.pdf}}, hal-01261232 | * Arkeryd, L., Nouri, A., 'Bose condensates in interaction with excitations - a two component space-dependent model close to equilibrium', Journal of Statistical Physics 160 (2015), 209-238,{{::JSP-PublishedVersion-Arkeryd-Nouri.pdf}}, hal-01261232 |
| | |
| * Arkeryd, L., Nouri, A., 'The linear Milne problem for the kinetic collision operator from a Bose condensate with excitations', Kinetic and Related Models, 6, 671-686, 2013, {{::milne-condens.pdf|}}, hal-01342484 | * Arkeryd, L., Nouri, A., 'The linear Milne problem for the kinetic collision operator from a Bose condensate with excitations', Kinetic and Related Models 6 (2013), 671-686, {{::milne-condens.pdf|}}, hal-01342484 |
| |
| * Bardos, C., Nouri, A., 'A Vlasov equation with Dirac potential used in fusion plasmas', J. Math. Phys., 53, Issue 11, 115621, 2012. {{::bardos-nouri.pdf|}}, hal-00830909 | * Bardos, C., Nouri, A., 'A Vlasov equation with Dirac potential used in fusion plasmas', J. Math. Phys. 53-11 (2012), 115621. {{::bardos-nouri.pdf|}}, hal-00830909 |
| | |
| * Arkeryd, L., Nouri, A., 'Bose condensates in interaction with excitations - a kinetic model', Comm. Math. Phys., 310, Issue 3, 765-788, 2012, {{::homog-condensate.pdf|}}, hal-01579354 | * Arkeryd, L., Nouri, A., 'Bose condensates in interaction with excitations - a kinetic model', Comm. Math. Phys. 310-3 (2012), 765-788, {{::homog-condensate.pdf|}}, hal-01579354 |
| | |
| * Arkeryd, L., Esposito, R., Marra, R., Nouri, A., 'Exponential stability of the solutions of the Boltzmann equation for the Benard problem', Kinetic and Related Models, 5, 673-695, 2012. {{::benard-2012.pdf|}}, hal-00823906 | * Arkeryd, L., Esposito, R., Marra, R., Nouri, A., 'Exponential stability of the solutions of the Boltzmann equation for the Benard problem', Kinetic and Related Models 5 (2012), 673-695. {{::benard-2012.pdf|}}, hal-00823906 |
| | |
| * Jabin, P.E., Nouri, A., 'Analytic solutions to a strongly nonlinear Vlasov equation', C.R. Acad. Sci. Paris, Ser. 1 349, 541-546, 2011, {{:crass2011.pdf|}}, hal-00719457 | * Jabin, P.E., Nouri, A., 'Analytic solutions to a strongly nonlinear Vlasov equation', C.R. Acad. Sci. Paris, Ser. 1 349 (2011), 541-546, {{:crass2011.pdf|}}, hal-00719457 |
| | |
| * Hauray, M., Nouri, A., 'Well-posedness of a diffusive gyro-kinetic model', Annales de l'Institut Henri Poincaré, 4, Nb 1, 109-138, 2011, {{:gyro_hauray-nouri_2011.pdf|}}, hal-00483023 | * Hauray, M., Nouri, A., 'Well-posedness of a diffusive gyro-kinetic model', Annales de l'Institut Henri Poincaré 4-1 (2011), 109-138, {{:gyro_hauray-nouri_2011.pdf|}}, hal-00483023 |
| | |
| * Arkeryd, L., Esposito, R., Marra, R., Nouri, A., 'Ghost effect by curvature in planar Couette flow', Kinetic and Related Models, Vol 4, 109-138, 2011, {{:aemn_g.pdf|}}, hal-01177113 | * Arkeryd, L., Esposito, R., Marra, R., Nouri, A., 'Ghost effect by curvature in planar Couette flow', Kinetic and Related Models 4 (2011), 109-138, {{:aemn_g.pdf|}}, hal-01177113 |
| | |
| * Arkeryd, L., Esposito, R., Marra, R., Nouri, A., 'Stability for Rayleigh-Benard convection solutions to the Boltzmann equation', Archive for Rational Mechanics and Analysis, Vol 198, Issue 1, 125-187, 2010,{{:aresmanouri2010.pdf|rayleigh-benard2010}} | * Arkeryd, L., Esposito, R., Marra, R., Nouri, A., 'Stability for Rayleigh-Benard convection solutions to the Boltzmann equation', Archive for Rational Mechanics and Analysis 198-1 (2010), 125-187,{{:aresmanouri2010.pdf|rayleigh-benard2010}} |
| | |
| * Ghendrih, P., Hauray, M., Nouri, A., 'Derivation of a gyrokinetic model. Existence and uniqueness of specific stationary solutions', Kinetic and Related Models, 2009, {{:6-gyrokinetic.pdf|}}, hal-00477454 | * Ghendrih, P., Hauray, M., Nouri, A., 'Derivation of a gyrokinetic model. Existence and uniqueness of specific stationary solutions', Kinetic and Related Models, 2009, {{:6-gyrokinetic.pdf|}}, hal-00477454 |
| ====== Encadrement de stages de niveau M2: ====== | ====== Encadrement de stages de niveau M2: ====== |
| * Encadrement en 2022 de Kamagate Abrouhenou, étudiant du M2 CEPS (Calcul Scientifique, Equations aux dérivées parteilles, Probabilités, Statistiques) du CTES (Centre de Télé-Enseignement Scientifique) de l'Université d'Aix-Marseille sur l'équation de Vlasov périodique en temps. Soutenance du stage le 8 décembre 2022. | * Encadrement en 2022 de Kamagate Abrouhenou, étudiant du M2 CEPS (Calcul Scientifique, Equations aux dérivées parteilles, Probabilités, Statistiques) du CTES (Centre de Télé-Enseignement Scientifique) de l'Université d'Aix-Marseille sur l'équation de Vlasov périodique en temps. Soutenance du stage le 8 décembre 2022. |
| * Encadrement en 2022 d'Apollinaire Bile, étudiant du M2 CEPS du CTES sur des bornes Maxwelliennes de la solution de l'équation de Boltzmann homogène en espace. Soutenance eu stage le 8 décembre 2022. | * Encadrement en 2022 d'Apollinaire Bile, étudiant du M2 CEPS du CTES sur des bornes Maxwelliennes de la solution de l'équation de Boltzmann homogène en espace. Soutenance du stage le 8 décembre 2022. |
| * Encadrement en 2021 et 2022 de Thomas Camara Kignon, étudiant du M2 CEPS du CTES, sur le modèle de Broadwell. Soutenance du stage le 8 décembre 2022. | * Encadrement en 2021 et 2022 de Thomas Camara Kignon, étudiant du M2 CEPS du CTES, sur le modèle de Broadwell. Soutenance du stage le 8 décembre 2022. |
| * Encadrement en 2020 de Marah Zakaria, étudiant du M2 CEPS du CTES, sur le modèle de Broadwell, exemple à 4 vitesses de l'équation de Boltzmann discrète en vitesses. Soutenance du stage le 9 décembre 2020. | * Encadrement en 2020 de Marah Zakaria, étudiant du M2 CEPS du CTES, sur le modèle de Broadwell, exemple à 4 vitesses de l'équation de Boltzmann discrète en vitesses. Soutenance du stage le 9 décembre 2020. |
