Team Calvi

Members
Overall Objectives
Scientific Foundations
Application Domains
Software
New Results
Contracts and Grants with Industry
Dissemination
Bibliography

Bibliography

Major publications by the team in recent years

[1]
F. Assous, P. Ciarlet, S. Labrunie, J. Segré.
Numerical solution to the time-dependent Maxwell equations in axisymmetric singular domains: the singular complement method, in: J. Comput. Phys., 2003, vol. 191, no 1, p. 147–176.
[2]
N. Besse.
Convergence of a semi-Lagrangian scheme for the one-dimensional Vlasov-Poisson system, in: SIAM J. Numer. Anal., 2004, vol. 42, no 1, p. 350–382 (electronic).
[3]
N. Besse, M. Mehrenberger.
Convergence of classes of high-order semi-Lagrangian schemes for the Vlasov Poisson system, in: Math. Comp., 2005, vol. 77, p. 93–123.
[4]
M. Campos Pinto, M. Mehrenberger.
Convergence of an adaptive semi-Lagrangian scheme for the Vlasov-Poisson system, in: Numer. Math., 2008, vol. 108, no 3, p. 407-444.
[5]
J. A. Carrillo, S. Labrunie.
Global Solutions for the One-Dimensional Vlasov-Maxwell System for Laser-Plasma Interaction, in: Math. Models Methodes Appl. Sci., 2006, vol. 16, p. 19–57.
[6]
F. Filbet, E. Sonnendrücker, P. Bertrand.
Conservative numerical schemes for the Vlasov equation, in: J. Comput. Phys., 2001, vol. 172, no 1, p. 166–187.
[7]
F. Filbet, E. Sonnendrücker.
Modeling and numerical simulation of space charge dominated beams in the paraxial approximation, in: Math. Models Methods Appl. Sci., 2006, vol. 16, no 5, p. 763–791.
[8]
E. Frénod, E. Sonnendrücker.
The finite Larmor radius approximation, in: SIAM J. Math. Anal., 2001, vol. 32, no 6, p. 1227–1247.
[9]
V. Grandgirard, Y. Sarazin, P. Angelino, A. Bottino, N. Crouseilles, G. Darmet, G. Dif-Pradalier, X. Garbet, P. Ghendrih, S. Jolliet, G. Latu, E. Sonnendrücker, L. Villard.
Global full-f gyrokinetic simulations of plasma turbulence, in: Plasma Physics and Controlled Fusion, 2007, vol. 49, no 12B, p. B173-B182
http://stacks.iop.org/0741-3335/49/B173.
[10]
E. Sonnendrücker, J. R. Roche, P. Bertrand, A. Ghizzo.
The semi-Lagrangian method for the numerical resolution of the Vlasov equation, in: J. Comput. Phys., 1999, vol. 149, no 2, p. 201–220.

Publications of the year

Doctoral Dissertations and Habilitation Theses

[11]
O. Hoenen.
Parallélisation de Méthodes Adaptives Semi-Lagrangiennes pour la Résolution de l'Équation de Vlasov, Ph. D. Thesis, Université Louis Pasteur, Strasbourg I, 2008.
[12]
S. Salmon.
Contribution aux méthodes numériques pour la simulation d'écoulements de fluides, d'électromagnétisme et de physique des plasmas, Habilitation à diriger des Recherches, Université Louis Pasteur, Strasbourg I, 2008.

Articles in International Peer-Reviewed Journal

[13]
N. Alaa, A. Cheggour, M. Iguernane, J. R. Roche, A. Tounssi.
Numerical analysis of a model for Nickel-Iron alloy electrodeposition on rotating disk electrode, in: International Journal of Computer Mathematics, 2008, vol. 85, no 10, p. 1531–1549.
[14]
N. Alaa, I. Fatmi, J. R. Roche, A. Tounssi.
Mathematical analysis for a model of nickel-iron alloy electrodeposition on rotating disk electrode: parabolic case, in: Int. J. Math. Stat., 2008, vol. 2, p. 30–48.
[15]
N. Besse, P. Bertrand, P. Morel, E. Gravier.
Weak turbulence theory and simulation of the gyro-water-bag model, in: Phys. Rev. E, 2008, vol. 77, no 056410.
[16]
M. Bostan.
Analysis of a particle method for the one dimensional Vlasov-Maxwell system, in: Numer. Methods PDE, to appear, 2008.
[17]
M. Bostan.
Homogenization of the 1D Vlasov-Maxwell equations, in: IMA J. Appl. Math., 2008, vol. 73, no 3, p. 539-555.
[18]
M. Bostan.
The Vlasov-Poisson system with strong external magnetic field. Finite Larmor radius regime, in: Asymptot. Anal., to appear, 2008.
[19]
M. Bostan, T. Goudon.
Electric high-field limit for the Vlasov-Maxwell-Fokker-Planck system, in: Ann. Inst. H. Poincaré Anal. Non Linéaire, to appear, 2008.
[20]
M. Bostan, T. Goudon.
Low field regime for the relativistic Vlasov-Maxwell-Fokker-Planck system; the one and one-half dimensional case, in: Kinet. Relat. Models, 2008, vol. 1, no 1.
[21]
A. Canelas, J. R. Roche, J. Herskovits.
The inverse electromagnetic shaping problem, in: Structural and Multidisciplinary Optimization, 2008.
[22]
P. Ciarlet, S. Labrunie.
Numerical analysis of the generalized Maxwell equations (with an elliptic correction) for charged particle simulations, in: Math. Models Methods Appl. Sci., to appear, 2008
http://hal.archives-ouvertes.fr/hal-00291503/fr/.
[23]
N. Crouseilles, P.-A. Hervieux, G. Manfredi.
Quantum hydrodynamic model for the nonlinear electron dynamics in thin metal film, in: Physical Review B, 2008, vol. 78, no 155412.
[24]
N. Crouseilles, G. Latu, E. Sonnendrücker.
A parallel Vlasov solver based on local cubic spline interpolation on patches, in: Journal of Computational Physics, 2008, vol. In Press, Accepted Manuscript, - p
http://www.sciencedirect.com/science/article/B6WHY-4TY49KC-1/2/82184ee239bae986cedec625fba35dc3.
[25]
E. Frénod, F. Salvarani, E. Sonnendrücker.
Long time simulation of a beam in a periodic focusing channel via a two-scale PIC-method, in: Math. Models Methods Appl. Sci., to appear, 2008
http://hal.archives-ouvertes.fr/hal-00180700/en/.
[26]
E. Gravier, R. Klein, P. Morel, N. Besse, P. Bertrand.
Gyrokinetic-Water-Bag modelling of low frequency instabilities in a laboratory magnetized plasma column, in: Physics Of Plasmas, to appear, 2008.
[27]
F. Haas, B. Eliasson, P. K. Shukla, G. Manfredi.
Phase-space structures in quantum-plasma wave turbulence, in: Physical Review E, to appear, 2008.
[28]
G. Manfredi, S. Devaux.
Magnetized plasma-wall transition – consequences for wall sputtering and erosion, in: Plasma Physics and Controlled Fusion, 2008, vol. 50, no 025009.
[29]
G. Manfredi, P.-A. Hervieux.
Fidelity decay in a trapped Bose-Einstein condensate, in: Physical Review Letters, 2008, vol. 100, no 050405.
[30]
M. Mehrenberger.
An Ingham type proof for the boundary observability of a N-d wave equation, in: Note aux Comptes Rendus de l'Académie des Sciences, to appear, 2008
http://hal.archives-ouvertes.fr/hal-00311730/fr/.
[31]
O. Morandi, P.-A. Hervieux, G. Manfredi.
Demagnetization in diluted magnetic semiconductors nanostructures, in: European Physical Journal D, submitted, 2008.
[32]
P. Morel, E. Gravier, N. Besse, R. Klein, A. Ghizzo, P. Bertrand, X. Garbet, P. Ghendrih, V. Grandgirard, Y. Sarazin.
Gyro kinetic modelling: a multi-water-bag approach, in: Phys. Of Plasmas, 2008, vol. 14, no 112109.

International Peer-Reviewed Conference/Proceedings

[33]
A. Canelas, J. R. Roche, J. Herskovits.
Electromagnetic Casting Inverse Problem, in: EngOpt 2008, 2008.
[34]
C. Chauvin, S. A. Hirstoaga, P. Kabelikova, A. Rousseau, F. Bernardin, M. Bossy.
Solving the Uniform Density Constraint in a Stochastic Downscaling Model, in: proceeding du CEMRACS 2008, 2008
http://hal.inria.fr/inria-00326931/fr/.
[35]
J.-F. ElHajjar, S. Marchesin, J.-M. Dischler, C. Mongenet.
Second Order Pre-Integrated Volume Rendering, in: IEEE Pacific Visualization Symposium, march 2008
http://lsiit.u-strasbg.fr/Publications/2008/EMDM08.
[36]
O. Hoenen, E. Violard.
Load-Balancing for a Block-based Parallel Adaptive 4D Vlasov Solver, in: Euro-Par, Lecture Notes in Computer Science, Springer, 2008, p. 822-832.
[37]
G. Manfredi, S. Devaux.
Plasma-wall transition in weakly collisional plasmas, in: FRONTIERS IN MODERN PLASMA PHYSICS: 2008 ICTP International Workshop on the Frontiers of Modern Plasma Physics, P. K. Shukla, B. Eliasson, L. Stenflo (editors), AIP, 2008, vol. 1061, p. 178-187
http://link.aip.org/link/?APC/1061/178/1.
[38]
S. Marchesin, C. Mongenet, J.-M. Dischler.
Multi-GPU Sort Last Volume Visualization, in: EG Symposium on Parallel Graphics and Visualization (EGPGV'08), Eurographics, april 2008
http://lsiit.u-strasbg.fr/Publications/2008/MMD08.

Scientific Books (or Scientific Book chapters)

[39]
M. Campos Pinto.
to appear, in: Adaptive semi-Lagrangian schemes for Vlasov equations, Analytical and Numerical Aspects of Partial Differential Equations, Etienne Emmrich and Petra Wittbold, de Gruyter Berlin 2009, 2008.
[40]
G. Manfredi, P.-A. Hervieux, Y. Yin, N. Crouseilles.
to appear, in: Collective Electron Dynamics in Metallic and Semiconductor Nanostructures, (arXiv:0810.3094), in "Advances in the atomic-scale modeling of nanosystems and nanostructured materials", Lecture Notes in Physics (Springer, Heidelberg, 2009), C. Massobrio, H. Bulou, and C. Goyenex Editors, 2008.

Internal Reports

[41]
C. Altmann, W. Angulo, T. Belat, M. Gutnic, P. Helluy, H. Mathis, E. Sonnendrücker.
Galerkin discontinuous approximation of the MHD equations, Technical report, INRIA, 2008
http://hal.archives-ouvertes.fr/IRMA/hal-00337063/en/.
[42]
M. Bostan.
Transport equations with singular coefficients. Application to the gyro-kinetic models in plasma physics, Technical report, INRIA, 2008, no RR-6449
http://hal.inria.fr/inria-00232800/fr/.
[43]
M. Bostan, N. Crouseilles.
Convergence of a semi-Lagrangian scheme for the reduced Vlasov-Maxwell system for laser-plasma interaction, Technical report, INRIA, 2008, no RR-6452
http://hal.inria.fr/inria-00221359/fr/.
[44]
A. Canelas, J. R. Roche, J. Herskovits.
Inductor shape optimization for electromagnetic casting, Technical report, INRIA, 2008, no RR-6733
http://hal.inria.fr/inria-00342050/fr/.
[45]
N. Crouseilles, T. Respaud, E. Sonnendrücker.
Forward semi-Lagrangian method for the numerical resolution of the Vlasov equation, Technical report, INRIA, 2008, no RR-6727
http://hal.inria.fr/inria-00339543/fr/.

Other Publications

[46]
R. Belaouar, N. Crouseilles, P. Degond, E. Sonnendrücker.
An asymptotically stable semi-lagrangian scheme in the quasi-neutral limit, submitted, 2008
http://hal.archives-ouvertes.fr/hal-00189383/fr/.
[47]
M. Campos Pinto, S. Jund, S. Salmon, E. Sonnendrücker.
Charge conserving FE-PIC codes on general grids, submitted, 2008
http://hal.archives-ouvertes.fr/hal-00311429/fr/.
[48]
P. Degond, F. Deluzet, S. A. Hirstoaga, E. Sonnendrücker, M.-H. Vignal.
The Gyrokinetic limit of the Vlasov equation in a large magnetic field, to submit, 2008.
[49]
S. Jund, S. Salmon, E. Sonnendrücker.
High order conforming finite-elment discretisation of the Maxwell equations, submitted, 2008.
[50]
J. R. Roche.
Classical Shape Optimization, The Electromagnetic Casting Problem, Conférence invitée au Laboratoire Nationale de Calcul Scientifique, Petropolis, Brésil, 2008.
[51]
J. R. Roche.
Mathematical and Numerical Analysis of some Non-Linear P.D.E's Problems, Conférence invitée au Séminaire MATH AmSud, Lima, Pérou, 2008.

References in notes

[52]
F. Assous, P. Ciarlet, S. Labrunie.
Theoretical tools to solve the axisymmetric Maxwell equations, in: Math. Meth. Appl. Sci., 2002, vol. 25, p. 49–78.
[53]
F. Assous, P. Ciarlet, S. Labrunie.
Solution of axisymmetric Maxwell equations, in: Math. Meth. Appl. Sci., 2003, vol. 26, p. 861–896.
[54]
F. Assous, P. Ciarlet, S. Labrunie, J. Segré.
Numerical solution to the time-dependent Maxwell equations in axisymmetric singular domains: The Singular Complement Method, in: J. Comp. Phys., 2003, vol. 191, p. 147–176.
[55]
F. Assous, P. Ciarlet, J. Segré.
Numerical solution to the time dependent Maxwell equations in two dimensional singular domains: the Singular Complement Method, in: J. Comput. Phys., 2000, vol. 161, p. 218–249.
[56]
F. Assous, P. Ciarlet, E. Sonnendrücker.
Resolution of the Maxwell equations in a domain with reentrant corners, in: M  2 AN, 1998, vol. 32, p. 359–389.
[57]
C. Bardos, P. Degond.
Global existence for the Vlasov-Poisson equation in 3 space variables with small initial data, in: Ann. Inst. H. Poincaré Anal. Non Linéaire, 1985, vol. 2, no 2, p. 101–118.
[58]
S. Benachour, F. Filbet, P. Laurençot, E. Sonnendrücker.
Global existence for the Vlasov-Darwin system in Im27 $\#8477 ^3$ for small initial data, in: Math. Methods Appl. Sci., 2003, vol. 26, no 4, p. 297–319.
[59]
C. Bernardi, M. Dauge, Y. Maday.
Spectral methods for axisymmetric domains, Series in Applied Mathematics, Gauthier-Villars, Paris and North Holland, Amsterdam, 1999.
[60]
C. Birdsall, A. Langdon.
Plasma Physics via Computer Simulation, McGraw-Hill , New York, 1985.
[61]
Y. Brenier.
Convergence of the Vlasov-Poisson system to the incompressible Euler equations, in: Comm. Partial Differential Equations, 2000, vol. 25, no 3-4, p. 737–754.
[62]
P. Ciarlet, N. Filonov, S. Labrunie.
Un résultat de fermeture pour les équations de Maxwell en géométrie axisymétrique, in: C. R. Acad. Sci. Paris série I, 2000, vol. 331, p. 293–298.
[63]
R. DiPerna, P.-L. Lions.
Global weak solutions of the Vlasov-Maxwell systems, in: Comm. Pure. Appl. Math., 1989, vol. XLII, p. 729–757.
[64]
F. Filbet, E. Sonnendrücker, J.-L. Lemaire.
Direct axisymmetric Vlasov simulations of space charged dominated beams, in: Lecture Notes in Computer Sciences, ICCS 2002, part 3, 2002, p. 305–314.
[65]
F. Filbet, E. Sonnendrücker, P. Bertrand.
Conservative numerical schemes for the Vlasov equation, in: J. Comput. Phys., 2001, vol. 172, no 1, p. 166–187.
[66]
I. Foster, C. Kesselman.
The Grid, blueprint for a new computing infrastructure, Morgan Kaufmann Publishers, Inc., 1998.
[67]
E. Frénod, E. Sonnendrücker.
Long time behavior of the Vlasov equation with a strong external magnetic field, in: Math. Models Methods Appl. Sci., 2000, vol. 10, no 4, p. 539–553.
[68]
E. Frénod, E. Sonnendrücker.
The finite Larmor radius approximation, in: SIAM J. Math. Anal., 2001, vol. 32, no 6, p. 1227–1247.
[69]
E. Frénod, E. Sonnendrücker.
Homogenization of the Vlasov equation and of the Vlasov-Poisson system with a strong external magnetic field, in: Asymptot. Anal., 1998, vol. 18, no 3-4, p. 193–213.
[70]
E. Garcia, S. Labrunie.
Régularité spatio-temporelle de la solution des équations de Maxwell dans des domaines non-convexes, in: C. R. Acad. Sci. Paris, série I, 2002, vol. 334, p. 293–298.
[71]
R. T. Glassey.
The Cauchy problem in kinetic theory, Society for Industrial and Applied Mathematics (SIAM) , Philadelphia, PA, 1996.
[72]
F. Golse, L. Saint-Raymond.
The Vlasov-Poisson system with strong magnetic field in quasineutral regime, in: Math. Models Methods Appl. Sci., 2003, vol. 13, no 5, p. 661–714.
[73]
M. Griebel, G. Zumbusch.
Hash based adaptive parallel multilevel methods with space-filling curves, 2000.
[74]
E. Horst, R. Hunze.
Weak solutions of the initial value problem for the unmodified nonlinear Vlasov equation, in: Math. Methods Appl. Sci., 1984, vol. 6, no 2, p. 262–279.
[75]
M. Parashar, J. C. Browne, C. Edwards, K. Klimkowski.
A common data management infrastructure for adaptive algorithms for PDE solutions, 1997.
[76]
F. Poupaud.
Runaway phenomena and fluid aproximation under high fields in semiconductors kinetic theory, in: Z. Angew. Math. Mech., 1992, vol. 72, no 8, p. 359–372.
[77]
L. Saint-Raymond.
The gyrokinetic approximation for the Vlasov-Poisson system, in: Math. Models Methods Appl. Sci., 2000, vol. 10, no 9, p. 1305–1332.
[78]
E. Violard.
A Semantic Framework To Adress Data Locality in Data Parallel Programs, in: Parallel Computing, 2004, vol. 30, no 1, p. 139–161.

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