Michel Mehrenberger
UDS-IRMA
7, rue Rene Descartes
67084 Strasbourg
FRANCE
+33(0)3 68 85 02 05
mehrenbe@math.unistra.fr
bureau 225, batiment math

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CV sur HAL

CV sur HAL offline (12.04.2016)

DOSSIER QUALIFICATION PROFESSEUR 2015

PARCOURS

ENSEIGNEMENT

DOMAINES DE RECHERCHE

PUBLICATIONS

COMMUNICATIONS

NEWS

SIMULATIONS

ENCADREMENT

PROJETS

ADMINISTRATION

LIENS


Dossier qualification professeur 2015


CV+expose Rapports HDR

[1] [2] [3] [4] [5] 5 travaux

[Audition 2016]


Parcours



01.09.2015-31.08.2016: Delegation INRIA (2015-2016) projet TONUS
01.09.2014-: Maitre de Conferences, Section 26, Universite de Strasbourg MOCO
01.09.2013-31.08.2014: Detachement a l'Institut Max-Planck de Physique des Plasmas (IPP), Garching bei Muenchen, Allemagne NMPP
01.09.2012-31.08.2013: 1/2 Detachement CNRS MOCO
01.09.2006-31.08.2013: Maitre de Conferences, Section 26, Universite de Strasbourg MOCO


Enseignement


[9] Encadrement stage magistere L3 (2015-2016) "Equations differentielles raides"

[8] Encadrement stage agregation (2014-2015) "Formules de quadrature de type Gauss"

[7] (8h CM; 8h TD, 2014-2015) Cours avance en M1 mathematiques fondamentales: partie equations d'evolution (reference: "Introduction a l'analyse numerique des equations aux derivees partielles", Raviart-Thomas)

[6] (20h CM, 2014-2015) L2MPC introduction des concepts de geometrie differentielle permettant de manipuler calculatoirement les courbes et les surfaces de l'espace, avec pour objectif final les theoremes generaux d'analyse vectorielle (Green-Riemann, Stokes, ...) utilises en electromagnetisme (TD: Romain Ponchon)

[5] (13h CI, 2014-2015) Certification Python en M1, avec Laurent Navoret (a partir du cours de Marcela Szopos et de l'aide de Pierre Navaro)

[4] (26.25h TD, 2014-2015) Outils mathematiques (ENSIIE, ecole d'informatique, niveau L3)

[3] (28h TD, 2014-2015) TP Calcul Scientifique (agregation) en scilab

[2] (87.5h CI, 2014-2015) [moodle] Analyse Mathematique d'une variable reelle L1S1

[1] Enseignements des annees precedentes (2006-2013)
     Analyse (Cours/TD), L3 math
     Analyse Numerique (Cours/TD), L2/L3 physique, L2 math, L3 ENSIIE
     Calcul Formel (TP de Maple), L1/L2 math
     Optimisation Non Lineaire (Cours/TD), L3 math-eco
     Analyse Spectrale (Cours/TD en anglais), M1 Computational Engineering
     Methodes mathematiques pour les physiciens (Cours/TD en anglais), M1 Computational Engineering
     Calcul Scientifique (TP de Scilab/Fortran/Etudes de textes), agregation, M1


Ressources

[L1ana] M. Mehrenberger, Notes de cours L1 analyse, L1 chimie

[L1maple] M. Mehrenberger, Calcul formel Analyse/algebre, L1 Math-info, Math-eco

[L2S3math] M. Mehrenberger, Calcul formel S3, L2 Math

[L2S4] [L2S4b] M. Mehrenberger, Calcul formel S4, L2 Math

[L2S3phys] M. Mehrenberger, Introduction a Maple et a l'analyse numerique, L2 MPC/PSI

[L2S3phys2010] M. Mehrenberger, Calcul formel et simulation numerique, L2 MPC/PSI

[L2S4math] M. Mehrenberger, Analyse numerique S4, L2 Math

[ensiie] M. Mehrenberger, Analyse numerique, ENSIIE

[L2mpc] M. Mehrenberger, Complements de notes de cours analyse vectorielle, L2mpc

[python] M. Szopos, M. Mehrenberger, L. Navoret, P. Navaro, PIP certification Python, M1 math [TP2.pdf] [TP2.py] [TP4.pdf] [TP4.py] [TP5.pdf] [TP5.py]

TP Scilab, agregation [intro_scilab] [interp] [integ] [zeros] [EDO] [EDO2] [poisson] [advect] [onde] [chaleur]

[EF] M. Mehrenberger, Programme Fortran pour Projet Elements finis, M1 math

Sujets d'examen Optimisation non lineaire, L3 math-eco [10CC] [10CT] [10CT2] [11CC] [11CT] [11CT2] [12CC] [12CT] [12CT2] [13CC] [13CT] [13CT2]


Domaines de recherche


Analyse non harmonique, observabilite

Methodes semi-lagrangiennes

Resolution numerique des equations cinetiques et gyrocinetiques (developpement dans le logiciel Selalib):
     Vlasov-Poisson 1Dx1D, 2Dx2D
     modele centre-guide 2D
     modele drift-kinetic 3Dx1D
     modele gyrocinetique 3Dx1D+mu


Publications sur HAL

[lien hal] Toutes les publications ci-dessous sont sur HAL (2 sont en double); le preprint est ci-dessous et/ou sur HAL; le DOI est indique sur HAL pour les travaux publies

[mathscinet] [google scholar] [research gate] [irma] [calvi] [tonus] [hal inria]



These

[T] [hal] M. Mehrenberger, Inegalites d'observabilite et resolution adaptative de l'equation de Vlasov par elements finis hierarchiques, These ULP, Strasbourg I (2004).


HDR

[H] [hal] [slides] M. Mehrenberger, Inegalites d'Ingham et schemas semi-lagrangiens pour l'equation de Vlasov, HDR Universite de Strasbourg, 5 octobre 2012


Articles de journaux

[A18] [hal] A. Hamiaz, M. Mehrenberger, H. Sellama, E. Sonnendrucker, The semi-Lagrangian method on curvilinear grids, October 2015, http ://hal.inria.fr/ hal-01213366, version 1, accepted in CAIM

[A17] [hal] G. Latu, V. Grandgirard, J. Abiteboul, N. Crouseilles, G. Dif-Pradalier, X. Garbet, P. Ghendrih, M. Mehrenberger, Y. Sarazin, E. Sonnendrucker, Improving conservation properties in a 5D gyrokinetic semi-Lagrangian code, INRIA, March 2014, no RR-8507, http ://hal.inria.fr/ hal-00966162, accepted in EPJD, topical issue of Vlasovia 2013.

[A16v1] [A16v2] [hal] B. Afeyan, F. Casas, N. Crouseilles, A. Dodhy, E. Faou, M. Mehrenberger, E. Sonnendrucker, Simulations of Kinetic Electrostatic Electron Nonlinear (KEEN) Waves with Two-Grid, Variable Velocity Resolution and High-Order Time-Splitting, hal-00977344, accepted in EPJD, topical issue of Vlasovia 2013.

[A15] [hal] C. Steiner, M. Mehrenberger, N. Crouseilles, V. Grandgirard, G. Latu, F. Rozar, Gyroaverage operator for a polar mesh, accepted in EPJD, topical issue of Vlasovia 2013.

[A14] [hal] N. Crouseilles, P. Glanc, S. A. Hirstoaga, E. Madaule, M. Mehrenberger, J. Petri, A new fully two-dimensional conservative semi-Lagrangian method: applications on polar grids, from diocotron instability to ITG turbulence, hal-00977342, accepted in EPJD, topical issue of Vlasovia 2013.

[A13] [hal] M. Jellouli, M. Mehrenberger, Optimal decay rates for the stabilization of a string network, Comptes Rendus Mathematiques, accepte pour publication, hal-00977345.

[A12] [hal] F. Charles, B. Despres, M. Mehrenberger, Enhanced convergence estimates for semi-lagrangian schemes Application to the Vlasov-Poisson equation, SIAM J. Numer. Anal. 2013, 51(2), 840-863.

[A11] [hal] N. Crouseilles, M. Mehrenberger, H. Sellama, Numerical solution of the gyroaverage operator for the finite gyroradius guiding-center model, CiCP 8, pp. 484-510, (2010).

[A10] [hal] F. Alauzet, M. Mehrenberger, P1-conservative solution interpolation on unstructured triangular meshes, Int. J. Numer. Meth. Engng, Volume 84, Issue 13, 24 December 2010.

[A9] [hal] K. Ammari, M. Mehrenberger, Study of the nodal feedback stabilization of a string-beams network, Journal of Applied Mathematics and Computing 36 (2011) no 1--2, 441--458.

[A8] [hal] N. Crouseilles, M. Mehrenberger, E. Sonnendrucker, Conservative semi-Lagrangian schemes for Vlasov equations, Journal of Computational Physics 229 (2010), 1927--1953.

[A7] [hal] M. Mehrenberger, An Ingham type proof for the boundary observability of a N-d wave equation, C. R. Math. Acad. Sci. Paris 347 (2009), no. 1-2, 63--68.

[A6] [hal] K. Ammari, M. Mehrenberger, Stabilization of coupled systems, Acta Math. Hungar. 123 (2009), no. 1-2, 1--10.

[A5] [hal] K. Ammari, M. Jellouli, M. Mehrenberger, Feedback stabilization of a coupled string-beam system, Netw. Heterog. Media 4 (2009), no. 1, 19--34.

[A4] [hal] P. Loreti, M. Mehrenberger, An Ingham type proof for a two-grid observability theorem, ESAIM Control Optim. Calc. Var. 14 (2008), no. 3, 604--631.

[A3] [hal] (en double sur HAL) M. Campos Pinto, M. Mehrenberger, Convergence of an Adaptive Scheme for the one dimensional Vlasov-Poisson system, Numer. Math. 108 (2008), no. 3, 407--444.

[A2] [hal] N. Besse, M. Mehrenberger, Convergence of classes of high order semi-Lagrangian schemes for the Vlasov equation, Math. of Comp.77 (2008), 93-123.

[A1] [hal] M. Mehrenberger, Critical length for a Beurling type theorem, Bollettino U.M.I. (8) 8-B (2005), 251--258.

[A0] [hal] M. Mehrenberger, Observability of coupled systems, Acta. Mat. Hungar. 103 (4) (2004), 321--348.


Proceedings

[P13] [hal] F. Rozar, C. Steiner, G. Latu, M. Mehrenberger, V. Grandgirard, J. Bigot, T. Cartier-Michaud, J. Roman, Optimization of the gyroaverage operator based on Hermite interpolation, CEMRACS 2014, ESAIM: PROCEEDINGS, accepted january 2016.

[P12] [hal] M. Mehrenberger, L. Mendoza, C. Prouveur, E. Sonnendrucker, Solving the guiding-center model on a regular hexagonal mesh, CEMRACS 2014, ESAIM: PROCEEDINGS, accepted january 2016, https://hal.archives-ouvertes.fr/hal-01117196.

[P11] [hal] A. Hamiaz, M. Mehrenberger, A. Back, P. Navaro, Guiding center simulations on curvilinear grids, CEMRACS 2014, ESAIM: PROCEEDINGS, accepted october 2015, hal-00908500v3.

[P10] [hal] M. Mehrenberger, C. Steiner, L. Marradi, N. Crouseilles, E. Sonnendrucker, B. Afeyan, Vlasov on GPU (VOG project), CEMRACS 2012, ESAIM: PROCEEDINGS, December 2013, Vol. 43, p. 37-58.

[P9] [hal] N. Crouseilles, P. Glanc, M. Mehrenberger, C. Steiner, Finite Volume Schemes for Vlasov, ESAIM Proc, CEMRACS 2011, December 2012, Vol. 38, p. 275-297.

[P8] [hal] J. P. Braeunig, N. Crouseilles, M. Mehrenberger, E. Sonnendrucker, Guiding-center simulations on curvilinear meshes, Discrete and Continuous Dynamical Systems Series S, Volume 5, Number 3, June 2012

[P7] [hal] N. Crouseilles, M. Mehrenberger, F. Vecil, Discontinuous Galerkin semi-Lagrangian method for Vlasov-Poisson, ESAIM Proc, CEMRACS 2010, October 2011, Vol. 32, p. 211-230.

[P6] [hal] A. Barhoumi,V. Komornik, M. Mehrenberger, A vectorial Ingham-Beurling type theorem, special issue of the journal Annales Univ. Sci. Budapest, dedicated to Professor Laszlo Simon on the occasion of his 70th birthday, Vol 53 (2010), 17--32.

[P5] [hal] P. Loreti, M. Mehrenberger, Observabilite uniforme de l'equation des ondes 1D [Uniform observability of the 1D wave equation], Paris-Sud Working Group on Modelling and Scientific Computing 2007--2008, 68--79, ESAIM Proc., 25, EDP Sci., Les Ulis, 2008.

[P4] [hal] M. Mehrenberger, E. Violard, A Hermite type adaptive semi-Lagrangian scheme, Int. J. Appl. Math. Comput. Sci., 17 (3) (2007), 329--334.

[P3] [hal] M. Gutnic, M. Mehrenberger, E. Sonnendrucker, O. Hoenen, G. Latu, E. Violard, Adaptive 2-D Vlasov Simulation of Particle Beams, Proceedings of ICAP 2006, Chamonix, France.

[P2] [hal] M. Mehrenberger, E. Violard, O. Hoenen, M. Campos Pinto, E. Sonnendrucker, A Parallel Adaptive Vlasov Solver Based on Hierarchical Finite Element Interpolation, Proceedings ICAP2004 St-Petersburg, Nuclear Inst. and Methods in Physics Research, A 558 (2006), 188--191.

[P1] [hal] O. Hoenen, M. Mehrenberger, E. Violard, Parallelization of an Adaptive Vlasov Solver, ParSim04 proceedings, Lecture Notes in Computer Science, 3241 (2004), 430--435.

[P0] [hal] M. Campos Pinto, M. Mehrenberger, Adaptive numerical resolution of the Vlasov equation, Numerical Methods for Hyperbolic and Kinetic Problems, CEMRACS 2003/IRMA Lectures in Mathematics and Theoretical Physics 7, 43--58.


Communications orales

[O2] [hal] M. Mehrenberger, N. Crouseilles, V. Grandgirard, S. Hirstoaga, E. Madaule, J. Petri, E. Sonnendrucker, Berk-Breizman and diocotron instability testcases, AMVV, East Lansing (Michigan, USA), 13 November 2012.

[O1] [hal] M. Mehrenberger, M. Bergot, V. Grandgirard, G. Latu, H. Sellama, E. Sonnendrucker, Conservative Semi-Lagrangian solvers on mapped meshes, "ICOPS International Conference on Plasma Science", Edinburgh, United Kingdom, 8-12 July 2012, http ://hal.inria.fr/hal-00759823.

[O0] [hal] M. Mehrenberger, High order semi Lagrangian schemes, Atelier du GdR CHANT sur les methodes numeriques pour les equations cinetiques, hyperboliques et de Hamilton-Jacobi, Nov 2005, Strasbourg, France.


Posters

[Po1] [hal] M. Mehrenberger, N. Crouseilles, E. Sonnendrucker, B. Afeyan, High-Order Numerical Methods for KEEN Wave Vlasov-Poisson Simulations, PPPS2013, PPPS, San Francisco, 16-21 june 2013.

[Po0] [hal] N. Crouseilles, M. Mehrenberger, H. Sellama, Resolution numerique de l'operateur de gyromoyenne, Congres d'Analyse Numerique, Carcans-Maubuisson, Gironde, 31 mai-4 juin 2010.


Rapports

[R5] [hal] G. Latu, M. Mehrenberger, M. Ottaviani, E. Sonnendrucker, Aligned interpolation and application to drift kinetic semi-Lagrangian simulations with oblique magnetic field in cylindrical geometry, December 2014, hal-01098373, version 1.

[R4] [hal] E. Madaule, S.A. Hirstoaga, M. Mehrenberger, J. Petri, Semi-Lagrangian simulations of the diocotron instability, July 2013, https://hal.inria.fr/hal-00841504.

[R3] [hal] G. Latu, V. Grandgirard, J. Abiteboul, M. Bergot, N. Crouseilles, X. Garbet, P. Ghendrih, M. Mehrenberger, Y. Sarazin, H. Sellama, E. Sonnendrucker, D. Zarzoso, Accuracy of unperturbed motion of particles in a gyrokinetic semi-Lagrangian code, INRIA, September 2012, no RR- 8054, http ://hal.inria.fr/ hal-00727118.

[R2] [hal] N. Crouseilles, E. Faou, M. Mehrenberger, High order Runge-Kutta-Nystrom splitting methods for the Vlasov-Poisson equation, inria-00633934, version 1, October 2011.

[R1] [hal] J. Guterl, J. P. Braeunig, N. Crouseilles, V. Grandgirard, G. Latu, M. Mehrenberger, E. Sonnendrucker, Test of some numerical limiters for the conservative PSM scheme for 4D Drift-Kinetic simulations, INRIA research report number 7467, November 2010.

[R0] [hal] (en double sur HAL) J. P. Braeunig, N. Crouseilles, V. Grandgirard, G. Latu, M. Mehrenberger, E. Sonnendrucker, Some numerical aspects of the conservative PSM scheme in a 4D drift-kinetic code, INRIA research report number 7109, November 2009.


Articles soumis

[S2] [hal] G. Latu, M. Mehrenberger, Y. Guclu, M. Ottaviani, E. Sonnendrucker, Field-aligned interpolation for semi-Lagrangian gyrokinetic simulations, May 2016, http ://hal.inria.fr/hal-01315889, version 1.

[S1] [hal] V. Grandgirard, J. Abiteboul, J. Bigot, Julien, T. Cartier-Michaud, N. Crouseilles, C. Erhlacher, D. Esteve, G. Dif-Pradalier, X. Garbet, P. Ghendrih, G. Latu, Guillaume, M. Mehrenberger, C. Norscini, C. Passeron, F. Rozar, Y. Sarazin, A. Strugarek, E. Sonnendrucker, D. Zarzoso, A 5D gyrokinetic full-f global semi-lagrangian code for flux-driven ion turbulence simulations, July 2015, https://hal-cea.archives-ouvertes.fr/cea-01153011.

[S0] [hal] F. Casas, N. Crouseilles, E. Faou, M. Mehrenberger, High-order Hamiltonian splitting for Vlasov-Poisson equations, October 2015, http ://hal.inria.fr/ hal-01206164, version 1.


Documents de travail

[D2] [hal] C. Steiner, M. Mehrenberger, N. Crouseilles, P. Helluy, Quasi-neutrality equation in a polar mesh, December 2015, hal-01248179, version 1.

[D1] [hal] C. Steiner, M. Mehrenberger, D. Bouche, A semi-Lagrangian discontinuous Galerkin convergence, August 2013, https://hal.archives-ouvertes.fr/hal-00852411.

[D0] [hal] N. Crouseilles, M. Mehrenberger, F. Vecil, A Discontinuous Galerkin semi-Lagrangian solver for the guiding-center problem, April 2012, http ://hal.inria.fr/hal-00717155.


Communications orales/posters 2010-2016 (pas sur HAL)


[C18] A stability result for oblic interpolation, CANUM, Obernai, 12 mai 2016.

[C17en] [C17fr] simu1 simu2 The semi-Lagrangian method using oblic interpolation, Collaborative Research Center (CRC) seminar , Karlsruhe Institute of Technology (KIT), 28 april 2016, following Seminario di Modellistica Differenziale Numerica , Dipartimento di Matematica - Sapienza Universita di Roma, 19 april 2016, following Interpolation oblique pour les solutions peu oscillantes dans la direction oblique, Rennes, 2 mars 2016.

[C16] The Semi-Lagrangian method with oblique interpolation, IPL FRATRES meeting, Nice 15-16 October 2015.

[C15] About the Ingham type proof for the boundary observability of a square and its generalization in N-d, Seminario Dipartimento SBAI - Sapienza, Rome, 30 September 2015.

[C14] A Ingham type approach for the observability of a ring shaped membrane, IFIP 2015 Part of Mini Symposium "Oscillation, Degeneracy and Controllability", Nice June 30, 2015.

[C13] Semi-Lagrangian kinetic and gyrokinetic simulations, Kinetic equations, CIRM, Marseille, Novembre 2014.

[C12] Interfaces and simulations in SELALIB, Numkin 2014, Selalib day, Garching, October 2014.

[C11] Semi-Lagrangian schemes with field aligned interpolation for ion turbulence simulations in a screw-pinch geometry, Numkin 2014, Garching, October 2014.

[C10] Simulations of Kinetic Electrostatic Electron Nonlinear (KEEN) Waves with Variable Velocity Resolution Grids and High-Order Time-Splitting, CEMRACS 2014, Luminy, Marseille July-August 2014.

[C9] Optimal decay rates for the stabilization of a string network, Controllability and networks, Conference in honour of the 60th birthday of Vilmos Komornik, Rome, 26-28 May 2014.

[C8] part of B. Afeyan's talk, KEEN wave simulations, AMVV2014, IPP, Garching near Munich, 8-10 April 2014.

[C7] N. Crouseilles, P. Glanc, S. A. Hirstoaga, E. Madaule, M. Mehrenberger, J. Petri Semi-Lagrangian simulations on polar grids: from diocotron instability to ITG turbulence, Vlasovia2013, Vlasovia 2013, Nancy, France, 25-28 November 2013.

[C6] Advective and conservative semi-Lagrangian schemes on uniform and non-uniform grids, NumKin2013, Numerical Methods for the Kinetic Equations of Plasma Physics (NumKin 2013), IPP, Garching near Munich, 2-6 September 2013.

[C5] High Order Semi-Lagrangian Schemes for the Vlasov equation, 4th Summer school on numerical modelling for fusion , 8-12 October 2012, IPP, Garching near Munich.

[C4] M. Mehrenberger, B. Despres, F. Charles, Enhanced convergence estimates for semi-Lagrangian schemes with application to the Vlasov-Poisson system, Recent Advances on Theory and Applications of Semi-Lagrangian Methods, Rome, 5-6 December 2011.

[C3] Splitting d'ordre 4 pour Vlasov-Poisson, Guidel, Congres SMAI, le 26 mai 2011.

[C2] Methodes semi-lagrangiennes conservatives pour la resolution numerique de l'equation de Vlasov, Seminaires GT ITER et ANEDP, Paris VI, le 6 et Orsay, le 13 janvier 2011.

[C1] Vlasov-Poisson en Crouch, Expose CALVI, Nancy, 24 juin 2010.

[C0] Vectorial Ingham-Beurling type estimates, Workshop Besancon, june 14-17, 2010.


News


[N4] projet PICSL "Particle in Cell and Semi-Lagrangian schemes for two species plasma simulations", proposition de projet cemracs 2016 avec S. Hirstoaga, July 18th - August 26th, Marseille

[N3] projet TARGET "TArgeting Realistic GEometry in Tokamak code gysela", proposition de projet cemracs 2016 avec G. Latu, July 18th - August 26th, Marseille

[N2] Stabilization of a string network: optimal decay rates and numerical implementations, Conference - Stability of non-conservative systems 4th-7th July 2016, Universite de Valenciennes, France

[N1] The semi-Lagrangian method for Vlasov type equations in different mesh contexts, ECCOMAS Congress 2016, 5-10 june 2016 Crete Island, Greece, minisymposium "MS 919 - Recent advances in numerical simulation and analysis of kinetic models"

[N0] Un resultat de stabilite pour l'interpolation oblique, CANUM 2016, 09-13 mai, expose oral


Simulations


Developpeur et utilisateur de Selalib , bibliotheque de simulation cinetique et gyrocinetique par une methode semi-lagrangienne


Encadrement


These N. Bouzat (2015-2018), "Fine grain algorithms and deployment methods for exascale applications", en co-direction avec Jean Roman; encadrant principal: Guillaume Latu.
These Y. Barsamian (2014-2017), sur le sujet/chapitre "Optimization of PIC and SL schemes for multi species simulations", encadrement avec S. Hirstoaga directeur de these: Eric Violard.
These C. Steiner (2011-2014), "Numerical computation of the gyroaverage operator and coupling with the Vlasov gyrokinetic equations", en co-direction avec N. Crouseilles
These P. Glanc (2010-2013), "Conservative remapping schemes for the Vlasov equation", avec N. Crouseilles
Postdoc A. Hamiaz (2013-2014), "Semi-Lagrangian methods on curvilinear grids"
Postdoc M. Bergot (2011, 2012), "forward semi-Lagrangian schemes in gyrokinetic simulations", avec E. Sonnendrucker
Postdoc H. Sellama (2009 ; 2011-2012), "Gyroaverage and conservative methods on curvilinear grids for gyrokinetics", avec N. Crouseilles et E. Sonnendrucker
Stage M1 A. Al Ibrahim (2016), "Kinetic simulations with space depending velocity support", avec L. Navoret
Stage M2 G. Faure (2014), "Schemas semi-lagrangiens pour l'equation de Vlasov-Poisson non lineaire", avec B. Despres et F. Charles
Stage M1 E. Madaule (2012), "Numerical resolution of the guiding center model in polar coordinates", avec S. Hirstoaga
Stage M2 C. Steiner (2011), "Equivalent equations for the linear advection equation", avec N. Crouseilles


Projets



Membre du projet INRIA TONUS, 2014- TONUS
Membre d'un projet Eurofusion 2015-2017: Veri cation and development of new algorithms for gyrokinetic codes (Principal Investigator: E. Sonnendrucker)
Membre d'un projet Eurofusion 2014: Verification of global gyrokinetic codes and development of new algorithms for gyrokinetic and kinetic codes (Principal Investigator: E. Sonnendrucker)
Membre du projet ANR GYPSI, 2010-2014 GYPSI
Membre du projet INRIA CALVI, 2006-2013 CALVI
Membre du projet ANR EGYPT, 2007-2010 EGYPT


Administration


Revue d'articles


[Re17] Applied Mathematics and Computation (2)

[Re16] Journal of Computational and Applied Mathematics (2)

[Re15] Communications in Computational Physics

[Re14] Journal of Computational Physics (2)

[Re13] Electronic Journal of Qualitative Theory of Differential Equations (2)

[Re12] Computer Physics Communications (2)

[Re11] Journal of Graphics Tools

[Re10] ESAIM:Procs

[Re9] SIAM Journal on Scientific Computing (2)

[Re8] Zeitschrift fuer Angewandte Mathematik und Physik

[Re7] Abstract and Applied Analysis

[Re6] Computational and Applied Mathematics

[Re5] SINUM

[Re4] Advances in Computational Mathematics (2)

[Re3] International Journal for Numerical Methods in Fluids

[Re2] Computers and Fluids

[Re1] Mathematics of Computation

[Re0] Journal of Computational Mathematics


Responsabilites


Membre du comite d'experts, Section 26, IRMA, 2010-

Membre du comite de selection 26 MCF (Universite de Strasbourg, 2011)

Controllability and networks, Conference in honour of the 60th birthday of Vilmos Komornik , 26-28 mai 2014

Responsable seminaire Equations aux derivees partielles, 2010-2013. Co-responsable avec M. Szopos (2014-) Seminaires

projet de cooperation franco-bavarois (2013) "Numerical methods on curvilinear meshes for gyrokinetics"

Coordinateur du projet "Numerical Methods for GYSELA" de FR FCM (2012), Federation CNRS sur la fusion a confinement magnetique / Euratom-CEA

Contrat CEA (2011) "Determination of numerical diffusion in a Lagrange- Projection type scheme"

Correspondant Apogee 2008-2011 Structure des enseignements 2010-2011

Responsable scientifique du projet DARI 2015 "Simulation numerique des plasmas par des methodes semi-lagrangiennes et euleriennes adaptees", 800 000 heures de calcul sur Curie.

Responsable scientifique du projet DARI 2016 "Simulation numerique des plasmas par des methodes semi-lagrangiennes et PIC adaptees", 400 000 heures de calcul sur Curie.

Redaction du rapport d'activite INRIA 2015


Liens


[1] Marie-Elise