Journal Publications - August 2024: total 78 - h27 - 2464 citations

Applied mathematical journals:

J.Comp.Phys. 29 Comp. & Fluids 12
Int.J.Num.Fluids 6 J.Sci.Comp.: 5
CiCP: 3 J.Comp.Appl.Math.: 1
SIAM J.: 2 AMS Math of Com.: 1 ...

Physics oriented journals. Eur J of Mech : 2, Laser and Particle : 1, Comp.Phys.Comm: 1, KhimicheskayFizika:1, Appl.Mat.Model : 1

Proceedings, reports, thesis. Proceedings: 9, Vulgarisation: 4, Los Alamos reports: 6, CEA reports: 14, PhD:1, Habilitation:1,

Prefered journals

Citations (scopus).
Best cited paper: #34 (260 citations),
2nd-#22-(235), 3rd-#19-(178), 5th-#9-(117), 10th-#23-(73), 15th-#50-(47), 20th-#61-(33)

Latest publications

  • A geometrically and thermodynamically compatible finite volume scheme for continuum mechanics on unstructured polygonal meshes Walter Boscheri, Raphaël Loubère, Pierre-Henri Maire, Journal of Computational Physics, 507, 2024, 10.1016/j.jcp.2024.112957 (Special issue in honor of Sergei Godunov)
  • A node-conservative vorticity preserving Finite Volume method for linear acoustics on unstructured grids, Wasilij Barsukow, Raphaël Loubère, Pierre-Henri Maire, AMS Mathematics of Computation, accepted july 2024

Submitted or in preparation

  • Toward robust linear implicit schemes for steady states supersonic flows. Jean-Philippe Braeunig, Benoit Cossart, Raphaël Loubère, submitted J.Comput. Phys, in revision july 2024.
  • A hybrid a posteriori MOOD limited Lattice Boltzmann method to solve compressible fluid flows -- LBMOOD Ksenia Kozhanova, Song Zhao, Raphaël Loubère, Pierre Boivin, submitted J.Comput. Phys, in revision july 2024.
  • A multi-dimensional aware Godunov method on unstructured mesh in 3D Vincent Delmas, Raphaël Loubère, Pierre-Henri Maire, Journal Computational Physics, in preparation, to be submitted in September 2024.

Complete list of referred articles

  1. A node-conservative vorticity preserving Finite Volume method for linear acoustics on unstructured grids, Wasilij Barsukow, Raphaël Loubère, Pierre-Henri Maire, AMS Mathematics of Computation, accepted july 2024
  2. Multidimensional aware subfaced-based Finite Volume scheme for the Eulerian droplet system of equation H. Beaugendre, A. Chan, V. Delmas, R. Loubère, P.-H. Maire, F. Morency, T. Vigier, Computer \& Fluids, 279, 2024, 10.1016/j.compfluid.2024.106326
  3. A geometrically and thermodynamically compatible finite volume scheme for continuum mechanics on unstructured polygonal meshes Walter Boscheri, Raphaël Loubère, Jean-Philippe Braeunig, Pierre-Henri Maire, Journal of Computational Physics, 507, 2024, 10.1016/j.jcp.2024.112957
  4. Preface in Honour of Prof. Rémi Abgrall on the Occasion of His 61th Birthday W. Boscheri, F. Chinesta, R. Loubère, S. Mishra, G. Puppo, M. Ricchiuto, C.-W. Shu, Communications on Applied Mathematics and Computation, 6, 2024, 10.1007/s42967-024-00434-6
  5. A well-balanced, positive, entropy-stable, and multi-dimensional-aware finite volume scheme for 2D shallow-water equations with unstructured grids, Alessia Del Grosso, Manuel J. Castro, Agnes Chan, Gérard Gallice, Raphaël Loubère, Pierre-Henri Maire, Journal of Computational Physics, 503, 2024, 10.1016/j.jcp.2024.112829
  6. An almost fail-safe a-posteriori limited high-order CAT scheme Emanuele Macca, Raphaël Loubère, Carlos Parés, Giovanni Russo, Journal of Computational Physics, 498, 2024, 10.1016/j.jcp.2023.112650.
  7. An Unconventional Divergence Preserving Finite-Volume Discretization of Lagrangian Ideal MHD, Walter Boscheri, Raphaël Loubère, Pierre-Henri Maire, Communications on Applied Mathematics and Computation, 6, 2024, 10.1007/s42967-023-00309-2
  8. A MOOD-like compact high order Finite Volume scheme under Adaptive-Mesh-Refinement, R. Loubère, R. Turpault, A. Bourriaud, Applied Mathematics and Computation, 443, 2023, 10.1016/j.amc.2022.127792.
  9. Entropy stable and positivity preserving Godunov-type schemes for multidimensional hyperbolic systems on unstructured grid , Gérard Gallice, Agnes Chan, Raphaël Loubère, Pierre-Henri Maire, Journal of Computational Physics, 468, 2022, 10.1016/j.jcp.2022.111493
  10. Mathematical Modeling and Associated Numerical Simulation of Fusion/Solidification Front Evolution in the Context of Severe Accident of Nuclear Power Engineering, Adrien Drouillet, Guillaume Bois, Romain Le Tellier, Raphaël Loubère and Mathieu Peybernes, Mathematics, 116, 2022, 10.3390/math10010116
  11. A 3D cell-centered ADER MOOD Finite Volume method for solving updated Lagrangian hyperelasticity on unstructured grids , Walter Boscheri, Raphaël Loubère, Pierre-Henri Maire, Journal of Computational Physics, 449, 2022, 10.1016/j.jcp.2021.110779
  12. Multi-dimensional simulation of phase change by a 0D-2D model coupling via Stefan condition, Adrien Drouillet, Romain Le Tellier, Raphaël Loubère, Mathieu Peybernes, Louis Viot, Communications on Applied Mathematics and Computation, November 2021, 10.1007/s42967-021-00157-y
  13. Positivity preserving and entropy consistent approximate Riemann solvers dedicated to the high-order MOOD-based Finite Volume discretization of Lagrangian and Eulerian gas dynamics , A. Chan, G. Gallice, R. Loubère, P.-H. Maire, Computers and Fluids, Volume 229, 30 October 2021, 10.1016/j.compfluid.2021.105056
  14. a posteriori stabilized sixth-order finite volume scheme with adaptive stencil selection - Basics for the 1D steady-state hyperbolic equations , Gaspar J. Machado, Stéphane Clain, Raphaël Loubère, Communications on Applied Mathematics and Computation, May 2021, 10.1007/s42967-021-00140-7
  15. High-accurate and robust conservative remapping combining polynomial and hyperbolic tangent reconstructions, Milan Kucharik , Raphaël Loubère, Computer & Fluids, 208, 2020 doi.org/10.1016/j.compfluid.2020.104614
  16. a priori Neural Networks vs a posteriori MOOD loop --- A high accurate 1D Finite Volume scheme testing bed, A. Bourriaud, R.Loubère, R. Turpault, J. Scient. Comput., Issue 2, 2020, 10.1007/s10915-020-01282-1
  17. Solution Property Preserving Reconstruction BVD+MOOD Scheme for Compressible Euler Equations with Source Terms and Detonations, S. Tann, X. Deng, R. Loubère, F. Xiao, Computers & Fluids, 206, 2020 10.1016/j.compfluid.2020.104594
  18. A second order all Mach number IMEX finite volume solver for the three dimensional Euler equations, Walter Boscheri, Giacomo Dimarco, Raphaël Loubère, Maurizio Tavelli, Marie-Hélène Vignal, Journal of Computational Physics, in press, 27/04, 2020, doi.org/10.1016/j.jcp.2020.109486.
  19. A staggered semi-implicit Discontinuous Galerkin Scheme with a posteriori subcell finite volume limiter for the Euler equations of gasdynamics, M. Ioriatti, M. Dumbser, R. Loubère, Journal of Scientific Computing volume 83, 27 (2020) doi.org/10.1007/s10915-020-01209-w
  20. Solution Property Preserving Reconstruction for Finite Volume Scheme: a BVD+MOOD framework, S. Tann, X. Deng, R. Loubère, Y. Shimizu, F. Xiao, Int. J. Num. Methods in FLUIDS, 2019, 92, pp. 603-634, http://dx.doi.org/10.1002/fld.4798
  21. Theoretical and numerical comparison of hyperelastic- and hypoelastic-type models of non-linear elastoplasticity, Ilya Peshkov, Walter Boscheri, Raphaël Loubère, Evgeniy Romenski, Michael Dumbser, Journal of Computational Physics, 387, p. 481-521 2019
  22. Very high-order accurate Finite Volume scheme for the convection-diffusion equation with general boundary conditions on curved boundaries, Ricardo Costa, João M. Nóbrega, Stéphane Clain, Gaspar J. Machado, Raphaël Loubère, International Journal for Numerical Methods in Engineering, volume 117 pages 188–220, 2019
  23. Second order Implicit-Explicit Total Variation Diminishing schemes for the Euler system in the low Mach regime, G. Dimarco, R. Loubère, V. Michel-Dansac, M.-H. Vignal, Journal of Computational Physics, Volume 372, Pages 178–201, 2018
  24. Limiter-free discontinuity-capturing scheme for compressible gas dynamics with reactive fronts. X. Deng, B. Xie, R. Loubère, Y. Shimizu, F. Xiao, Computer & Fluids, 171, p. 1-14, 2018
  25. A class of low dissipative schemes for solving kinetic equations, Giacomo Dimarco, Cory Hauck, Raphaël Loubère, Journal of Scientific Computing, 78(1) p. 393-432, 2019
  26. A second-order cell-centered Lagrangian ADER-MOOD finite volume scheme on multidimensional unstructured meshes for hydrodynamics, W.Boscheri, M. Dumbser, R. Loubère, P.-H.Maire, J.Comput.Phys. 358 p. 103-129 2018
  27. Adaptive-Mesh-Refinement for hyperbolic systems of conservation laws based on a posteriori stabilized high order polynomial reconstructions, M. Semplice, R. Loubère, J.Comput.Phys. 354 p. 86-110, 2018
  28. A Multi−Scale Residual−Based Anti−Hourglass Control for Compatible Staggered Lagrangian Hydrodynamics, M. Kucharik, G. Scovazzi, M. Shashkov, R. Loubère, J.Comput.Phys. 354, p. 1-25, 2018
  29. An efficient numerical method for solving the Boltzmann equation in multidimensions, Giacomo Dimarco, Raphaël Loubère, Jacek Narski, Thomas Rey, J.Comput.Phys. 353, pp 46-81, 2018
  30. a posteriori limiting for 2D Lagrange plus Remap schemes solving the hydrodynamics system of equations Jean-Philippe Braeunig, Raphaël Loubère, Renaud Motte , Mathieu Peybernes, Raphaël Poncet, Computer and Fluids Volume 169, 30 June 2018, Pages 249-262
  31. Very high-order accurate finite volume scheme on curved boundaries for the two-dimensional steady-state convection-diffusion equation with Dirichlet condition, R. Costa, S. Clain, R. Loubère, G.J. Machado, Applied Math and Modeling, 54 p 752-767, 2018
  32. a posteriori stabilized sixth-order finite volume scheme for one-dimensional steady-state hyperbolic equations S.Clain, R.Loubere, G.Machado Advances in Computational Mathematics, (2018) 44: 571.
  33. Study of a new Asymptotic Preserving scheme for the Euler system in the low Mach number limit, G.Dimarco, R.Loubère, M.-H.Vignal, SIAM J. Sci. Comput., 39(5), A2099–A2128. (2017) https://doi.org/10.1137/16M1069274
  34. Chapter 13: Staggered and co-located Finite Volume schemes for Lagrangian hydrodynamics Raphaël Loubère, Pierre-Henri Maire, Bernard Rebourcet, In: Rémi Abgrall and Chi-Wang Shu, Editor(s), Handbook of Numerical Analysis, Elsevier, 2016, Volume 17, Pages 319-352, ISSN 1570-8659, ISBN 9780444637895, http://doi.org/10.1016/bs.hna.2016.07.003.
  35. A Very High-Order Accurate Staggered Finite Volume Scheme for the Stationary Incompressible Navier–Stokes and Euler Equations on Unstructured Meshes, Costa, R., Clain, S., Machado, G.J., Loubère, R. , Journal of Scientific Computing, 1-34, 2017
  36. High accurate SPH method with multidimensional optimal order detection Xesús Nogueira, Luis Ramı́rez, Stéphane Clain, Raphaël Loubère, Luis Cueto-Felgueroso, Ignasi Colominas, Computer Methods in Applied Mechanics and Engineering, 310, 134-155, 2016
  37. High order accurate direct Arbitrary-Lagrangian-Eulerian ADER-MOOD finite volume schemes for non-conservative hyperbolic systems with stiff source terms W.Boscheri, R. Loubère, Communication in Computational Physics, 21 (1) 271-312, 2017
  38. Cell centered direct Arbitrary-Lagrangian-Eulerian ADER-WENO finite volume schemes for nonlinear hyperelasticity W.Boscheri, M.Dumbser, R.Loubère, Computer and Fluids, volumes 134-135, pages 111-129, 2016
  39. A simple robust and accurate a posteriori sub-cell finite volume limiter for the Discontinuous Galerkin method on unstructured meshes, M.Dumbser, R.Loubère, Journal of Computational Physics, Volume 319, 15, Pages 163–199, 2016
  40. High accurate conservative remapping scheme on polygonal meshes using a posteriori MOOD limiting, Ghislain Blanchard, Raphaël Loubère, Computer & Fluids, volume 136, pages 83-103 2016,
  41. Direct Arbitrary-Lagrangian–Eulerian ADER-MOOD finite volume schemes for multidimensional hyperbolic conservation laws, Walter Boscheri, Raphaël Loubère, M.Dumbser, Journal of Computational Physics 292 56-87 2015
  42. A multiscale fast semi-Lagrangian method for rarefied gas dynamics, Giacomo Dimarco and Raphaël Loubère and Vittorio Rispoli Journal of Computational Physics 291 99-119 2015
  43. Towards an ultra efficient kinetic scheme Part III: High Performance Computing , Jacek Narski, Giacomo Dimarco and Raphaël Loubère, Journal of Computational Physics Volume 284, 1 March 2015, Pages 22–39
  44. Adaptive subdivision Piecewise Linear Interface calculation (ASPLIC) for 2D multi-material hydrodynamic simulation codes, C.Fochesatto, R.Loubere, R.Motte, J.Ovadia, International Journal of numerical Methods in Fluids, Volume 77, Issue 7, pages 418-439 2014
  45. A posteriori subcell limiting for Discontinuous Galerkin Finite Element method for hyperbolic system of conservation laws Michael Dumbser, Olindo Zanotti, Raphaël Loubère and Steven Diot , Journal of Computational Physics, 278, 47-75, (2014).
  46. A New Family of High Order Unstructured MOOD and ADER Finite Volume Schemes for Multidimensional Systems of Hyperbolic Conservation Laws Raphaël Loubère and Michael Dumbser and Steven Diot , Communication in Computational Physics, 16, pp. 718-763 (2014). <-- Top Ten most cited article in 2014-2015 for CiCP
  47. Towards an ultra efficient kinetic scheme Part II: The High-order case , Giacomo Dimarco, Raphaël Loubère, Journal of Computational Physics, Volume 255, 2013, pp 699-719
  48. Dealing with more than two materials in FVCF-ENIP method, Bruno Blais, Jean-Philippe Braeunig , Jean-Michel Ghidaglia , Raphael Loubere, European Journal of Physics B Volume 42, pp. 1-9 2013
  49. The MOOD method in the three-dimensional case: Very-High-Order Finite Volume Method for Hyperbolic Systems, Steven Diot, Raphaël Loubère, Stéphane Clain, International Journal of numerical Methods in Fluids, Volume 73, Issue 4, pages 362–392, 10 October 2013
  50. A nominally second-order cell-centered Lagrangian scheme for simulating elastic-plastic flows on two-dimensional unstructured grid, Pierre-Henri Maire, Remi Abgrall, Jerome Breil , Raphael Loubere , Bernard Rebourcet , Journal of Computational Physics, 235, p.626-665, 2013 (French short version in CHOCS Avancees 2012, CEA-DAM, pp 44-45 Un nouveau type de schéma lagrangiens pour les écoulements élastoplastiques)
  51. Towards an ultra efficient kinetic scheme Part I: basics on the BGK equation , Giacomo Dimarco, Raphaël Loubère, Journal of Computational Physics, Volume 255, 2013, pp 680-698,
  52. 3D staggered Lagrangian hydrodynamics with cell-centered Riemann solver based artificial viscosity R. Loubere, P.-H. Maire, P. Vachal, Int. J. Numer. Meth. Fluids, 72, 1, p.22-42 2013.
  53. Enhancement of Lagrangian slide lines as a combined force and velocity boundary condition, L. Bednik, M. Kucharik, R.Liska, R. Loubere, Computer and Fluids, vol.83, pp.3-14, 2013 http://dx.doi.org/10.1016/j.compfluid.2012.06.005
  54. Improved Detection Criteria for the Multi-dimensional Optimal Order Detection (MOOD) on unstructured meshes with very high-order polynomials, S. Clain, S. Diot and R. Loubère, Computer and Fluids, Volume 64, 15 July 2012, Pages 43-63,
  55. A totally Eulerian Finite Volume solver for multi-material fluid flows : Enhanced Natural Interface Positioning (ENIP), Jean-Philippe Braeunig , Jean-Michel Ghidaglia , Raphael Loubere, European Journal of Mechanics - B/Fluids Volume 31, January–February 2012, Pages 1-11
  56. Staggered Lagrangian discretization based on cell-centered Riemann solver and associated hydro-dynamics scheme, R. Loubère, P.-H. Maire, P. Vachal, Communication in Computational Physics, 2011, Vol. 10 (2011), Issue 4, pp. 940-978.
  57. A high-order finite volume method for hyperbolic systems: Multi-dimensional Optimal Order Detection (MOOD), S. Clain, S. Diot, R. Loubère, Journal of Computational Physics, Volume 230, Issue 10, 10 May 2011, Pages 4028-4050.
  58. ReALE: A Reconnection Arbitrary-Lagrangian-Eulerian method in cylindrical geometry , R. Loubère, P.-H. Maire, M. Shashkov, Computer and Fluids (46) pp 59-69, 2011
  59. A second-order compatible staggered Lagrangian hydrodynamics scheme using a cell-centered multidimensional approximate Riemann solver Procedia Computer Science, Volume 1, Issue 1, May 2010, Pages 1925-1933 Raphaël Loubère, Pierre-Henri Maire, Pavel Váchal
  60. ReALE: A reconnection-based arbitrary-Lagrangian–Eulerian method, Journal of Computational Physics, Volume 229, Issue 12, 20 June 2010, Pages 4724-4761 Raphaël Loubère, Pierre-Henri Maire, Mikhail Shashkov, Jérôme Breil, Stéphane Galera
  61. A Second-order Accurate Material-order-independent Interface Reconstruction Technique for Multi-Material Flow Simulations, Journal of Computational Physics, Volume 228, Issue 3, 20 February 2009, Pages 731-745 Samuel P. Schofield, Rao V. Garimella, Marianne M. Francois, Raphaël Loubère
  62. Volume consistency in Staggered Grid Lagrangian Hydrodynamics Schemes, Journal of Computational Physics, Volume 227, Issue 8, 1 April 2008, Pages 3731-3737 R. Loubère, M. Shashkov, B. Wendroff
  63. On stabiliy analysis of staggered schemes, A.L. Bauer, R. Loubere, B. Wendroff, SIAM J.Num.Anal. Vol 46 Issue 2 (2008)
  64. Material order independent interface reconstruction using power diagrams, S.P.Schofield, R.V.Garimella, M.M.Francois, R.Loubère International Journal for Numerical Methods in Fluids 56 (6), pp. 643-659 (2008)
  65. The Internal Consistency, Stability, and Accuracy of the Discrete, Compatible Formulation of Lagrangian Hydrodynamics, Journal of Computational Physics, Volume 218, Issue 2, 1 November 2006, Pages 572-593 A.L. Bauer, D.E. Burton, E.J. Caramana, R. Loubère, M.J. Shashkov, P.P. Whalen
  66. ``Curl-q": A Vorticity Damping Artificial Viscosity for Lagrangian Hydrodynamics Calculations, Journal of Computational Physics, Volume 215, Issue 2, 1 July 2006, Pages 385-391 E.J. Caramana, R. Loubère
  67. Convergence and Sensitivity Analysis of Repair Algorithms in 1D , B.Despres, R.Loubere Int. J. Finit. Vol (2006)
  68. The Force/Work Differencing of Exceptional points in the Discrete Compatible Formulation of Lagrangian Hydrodynamics, Journal of Computational Physics, Volume 216, Issue 1, 20 July 2006, Pages 1-18 R. Loubère, E.J. Caramana
  69. The repair paragdim: new algorithms and applications to compressible flow, Journal of Computational Physics, Volume 211, Issue 2, 20 January 2006, Pages 385-404 Raphaël Loubère, Martin Staley, Burton Wendroff Ranked 21st in the TOP 25 Hottest Articles in Physics and Astronomy Oct-Dec 05 Ranked 1st in the TOP 25 Hottest Articles in Computer Science in Journal of Comp. Physics Oct-Dec 05
  70. A subcell remapping method for polygonal staggered grids, Journal of Computational Physics, Volume 209, Issue 1, 10 October 2005, Pages 105-138 Raphaël Loubère, Mikhail J. Shashkov
  71. 2D Arbitrary-Lagrangian-Eulerian (ALE) code on polygonal grids for shock wave simulation Khimicheskaya Fizika 24 (2), pp. 19-31 (2005) R. Loubere, M. Shashkov,
  72. Modeling of laser-plasma interaction on hydrodynamics scales: Physics developments and comparison with experiments, S.Weber et al Laser and particle beam (2004) 22, pp.189-195
  73. A transport simulation code for Inertial Confinement Fusion (ICF) relevant laser/plasma interaction, S.Weber, P.H.Maire, R.Loubère, G.Riazuello, P.Michel, J.Ovadia, V.Tikhonchuk, Comp.Physics Comm. 168, 141-158 (2005)
  74. A laser-plasma interaction code for ICF Weber, S., Loubère, R., Tikhonchuk, V., Ovadia, J., Bonnaud, G., Inertial Fusion Sciences and Applications 2003 , pp. 327-330
  75. A lagrangian Discontinuous Galerkin type method on unstructured meshes to solve hydrodynamics problems, R.Loubère, J.Ovadia, R.Abgrall, Int. J. Numer. Meth. Fluids, 44, Isssue 6, pp. 645-663 (2004)
  76. A new particle lagrangian Discontinuous Galerkin type method. Applications to hydrodynamics and laser/plasma interactions problems. R.Loubère, PhD University of Bordeaux (2002)
  77. A new dynamical antidiffusive process (in french Une technique nouvelle d'antidiffusion dynamique), G.Godinaud, A.Y.Le Roux, R.Loubere, J.Ovadia, C.R.Acad.Sci.Paris, t.333, Série I, p.957-960, 2001
  78. Analysis of a complete discrete finite element method for a free boundary diffusion problem with absorption, M.I.Cozic, M.N.Le Roux, R.Loubere, J.Comp.Appl.Math., 134 (2001) p.143-164

Proceedings

  1. Multidimensional aware Riemann solver for the Eulerian droplet equation system H. Beaugendre, A. Chan, V. Delmas, R. Loubère, P.-H. Maire, F. Morency, T. Vigier, ICCFD11 2022 - Eleventh International Conference on Computational Fluid Dynamics, 2022-07-11, Maui.
  2. CAT-MOOD methods for conservation laws in one space dimension, R. Loubère, E. Macca, C. Pares and G. Russo, Proc. of HYPE Malaga 2022 conference, SEMA SIMAI Springer Series, 35, 2024, 10.1007/978-3-031-55264-9_15
  3. Second-order well-balanced scheme for the shallow-water equations with topography, Christophe Berthon, Raphaël Loubère and Victor Michel-Dansac, XVI International Conference on Hyperbolic Problems Theory, Numerics, Applications, Aachen (Germany), August 1-5, 2016 Springer Proceeding
  4. Very high-order finite volume method for one-dimensional convection diffusion problems. S. Clain, S. Diot, R. Loubère, G. Machado, R. Ralha, and R.M.S. Pereira. In MATHEMATICAL MODELS FOR ENGINEERING SCIENCE (MMES’11), International conference of the Institute for Environment, Engineering, Economics and Applied Mathematics (IEEEAM), 2012.
  5. A finite volume lagrangian cell centered mimetic approach for computing elasto-plastic deformation of solids in general unstructured grids, Sambasivan, S.K. and Loubère, R. and Shashkov, M.J., ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full Papers, p 125-142
  6. Multi-dimensional Optimal Order Detection (MOOD) — A very high-order Finite Volume Scheme for conservation laws on unstructured meshes, S. Clain, S. Diot, R. Loubère FVCA 6, International Symposium, Prague, June 6-10, 2011, Series: Springer Proceedings in Mathematics, Vol. 4, Fořt, J.; Fürst, J.; Halama, J.; Herbin, R.; Hubert, F. (Eds.) 1st Edition., 2011, XVII, 1065 p. 106 illus. in color.
  7. A second-order compatible staggered Lagrangian hydrodynamics scheme using a cell-centered multidimensional approximate Riemann solver Procedia Computer Science, Volume 1, Issue 1, May 2010, Pages 1925-1933 Raphaël Loubère, Pierre-Henri Maire, Pavel Váchal
  8. Arbitrary-Lagrangian-Eulerian (ALE) method in cylindrical coordinates for laser/plasma simulation, M.Kucharik, R.Liska, R.Loubere, M. Shashkov, Hyperbolic problems: Theory, Numerics, Application, Proceedings of the 11th Int. Conf on Hyperbolic problems, ENS Lyon July 17-21, 2006, Sylvie Benzoni-Gavage and Denis Serre editors, Springer-Verlag Berlin Heidelberg 687--694,
  9. Comparison of staggered and cell-centered Lagrangian and ALE hydrodynamical methods. In E. Tadmor, J.-G. Liu, and A.E. Tzavaras, editors, Hyperbolic Problems. Theory, Numerics and Applications., volume 67.2 of Proceedings of Symposia in Applied Mathematics, pages 755-764. University of Maryland, American Mathematical Society, 2009. R. Liska, R. Loubere, P.-H. Maire, J. Breil, S. Galera, and P. Vachal.
  10. Formulation of a staggered two-dimensional Lagrangian scheme by means of cell-centered approximate Riemann solver. Proceedings of ENUMATH 2009, the 8th European Conference on Numerical Mathematics and Advanced Applications, Uppsala, Sweden, Springer, (ed.) R. Loubère, P.-H. Maire, P. Vachal, 2009, Editors Gunilla Kreiss Per Lötstedt, Axel Målqvist, Maya Neytcheva

Communication, vulgarisation

  1. Article sur l’inauguration de la Fédération MARGAUX dans la Gazette de la Société Mathématique de France Samuel Boissière, Raphaël Loubère, n171 – janvier 2022
  2. Dossier "Fédérer les recherches en mathématiques en Nouvelle-Aquitaine MARGAUx", revue L'actualité Nouvelle-Aquitaine, n° 132 et 133, 2021 et 2022 Samuel Boissière, Raphaël Loubère, https://emf.fr/40336/revue-lactualite-nouvelle-aquitaine-rendez-vous-en-fevrier-2022/
  3. "Naissance de la fédération MARGAUx (FR-2045) (MAthématiques de Recherche en réGion nouvelle-AqUitaine)" Moulay Barkatou, Samuel Boissière, Fabien Caubet, Rafik Imekraz, Raphaël Loubère, MATAPLI, 122, pages, 2021, http://smai.emath.fr/spip.php?article154
  4. Fédérer les recherches en mathématiques en Nouvelle-Aquitaine MARGAUx , Samuel Boissière, Raphaël Loubère, Dossier L'ACTUALITE NOUVELLE-AQUITAINE, N°132, p 140-152, Eté-Automne 2021
  5. Editor in chief of the Newsletter ECCOMAS July 2020 www.eccomas.org/wp-content/uploads/sites/15/2020/07/Eccomas_Newsletter_July_2020_online.pdf
  6. "SMAI: FRENCH INDUSTRIAL AND APPLIED MATHEMATICAL SOCIETY AND ITS THEMATIC GROUP, and GAMNI: FRENCH GROUP FOR ADVANCES OF NUMERICAL METHODS FOR ENGINEERING" T. Horsin, J.F. Maître and R. Loubère, in Newsletter ECCOMAS, pages 59-67, July 2020
  7. "INTERNATIONAL CONFERENCE SERIES ON HIGH-ORDER NONLINEAR NUMERICAL METHODS FOR EVOLUTIONARY PDES: THEORY AND APPLICATIONS: HONOM" R. Loubère, in Newsletter ECCOMAS, pages 70-74, July 2020

Reports, PhD, Habilitation, and unpublished scientific communications

  • French Atomic Energy Commission (CEA) and Applied Mathematics lab from Bordeaux (MAB) reports
    • R. Loubère, J. Ovadia – Une méthode particulaire lagrangienne (MPL). Partie I : principes de la méthode numérique – Rapport du Laboratoire de Recherche Correspondant CEA-Université de Bordeaux (LRC M03) – N°06 (2001)
    • G. Bonnaud, R. Loubère, J. Ovadia – Une méthode particulaire lagrangienne (MPL). Partie II : application à l’interaction laser/plasma – Rapport du Laboratoire de Recherche Correspondant CEA-Université de Bordeaux – N°07 (2001)
  • Los Alamos National Laboratory (LAURs) reports
    • R. Loubère, "Investigation of triangular meshes forcompressible Langrangian hydrodynamics"LAUR-05-2937
    • R. Loubère, Multi fluid model in 1D Lagrangian, report1 LAUR-04-6694, report2 LAUR-05-5037
    • R. Loubère, "A Mixing Model for Mulimaterial Computations in Fluid Dynamics: Remapping and Ale" LAUR-05-7570
    • R. Loubère, First steps into ALE INC (manual of the code) LAUR-04-8840
    • R. Loubère, Test Suite for hydrodynamics compressible flows LAUR-05-9395
    • R. Loubère, "On the effect of the different Limiters for the tensor Artificial Visosity for the compatible Langrangian" LAUR-05-93013
  • CEA DAM DIF reports R. Loubère in 2007, 2008, 2009, 2010, 2011, 2013, 2016
  • French Habilitation "Contribution to the Lagrangian and ALE numerical methods" R.Loubère. University of Toulouse (France), 2013. Supervisor: P. Degond (Math Institute of Toulouse) Reviewers: A. Barlow (Atomic Weapons Establishment, UK), F. Coquel (J.L.Lions Lab, University of Paris VI and Polytechnique school), P. Roe (Aerospace engineering, Univ. of Michigan, U.S.A)
  • PhD University of Bordeaux (France). "A new particle Lagrangian Discontinuous Galerkin type method. Applications to hydrodynamics and laser/plasma interaction problems" 2002 (defense 18/10/2002). CEA (Atomic Energy Commission) + MAB (Applied Math. of Bordeaux) Supervisor: R. Abgrall (member of the French University Institute, University of Bordeaux) CEA: J. Ovadia Reviewers: B. Després (J.L.Lions Lab, University of Parix VI), J.M. Moschetta (SUPAERO Engineering School, Toulouse)