Revues

  1. R. Pasquetti, Elliptic problems in curved domains using cubature points based triangular spectral elements and isoparametric mappings, J. of Math. Study, 53, 237-246, 2020.

  2. J. Llobell, S. Minjeaud, R. Pasquetti, High order CG schemes for KdV and Saint-Venant flows, in Lecture Notes in computational Science and Engineering, Numerical methods for flows, 132, 341-352, 2020.

  3. R. Pasquetti, F. Rapetti, Cubature points based spectral elements: An accuracy study, J. of Math. Study, 55, 15-25, 2018.

  4. S. Minjeaud, R. Pasquetti, High order C0-continuous Galerkin schemes for high order PDEs, conservation of quadratic invariants and application to the Korteweg-de Vries model, J. of Sci. Comput., 74, 491-518, 2018.

  5. R. Pasquetti, Viscous stabilizations for high order approximations of Saint-Venant and Boussinesq flows, in Lecture Notes in computational Science and Engineering : Spectral and High Order Methods for Partial Differential Equations - ICOSAHOM 2016, M.L. Bittencourt, N.A. Dumont, J.S. Hesthaven Eds, Springer, 519-531, 2017.

  6. R. Pasquetti, F. Rapetti, Cubature versus Fekete-Gauss nodes for spectral element methods on simplicial meshes, J. of Comput. Phys., 347, 463-466, 2017.

  7. S. Minjeaud, R. Pasquetti, Fourier-spectral elements approximation of the two fluid ion-electron Braginskii system with application to tokamak edge plasma in divertor configuration, J. of Comput. Phys., 321, 492-511, 2016.

  8. R. Pasquetti, Comparison of some isoparametric mappings for curved triangular spectral elements, J. of Comput. Phys., 316, 573-577, 2016.

  9. R. Pasquetti, J.L. Guermond, B. Popov, Stabilized spectral element approximation of the Saint Venant system using the entropy viscosity technique, in Lecture Notes in computational Science and Engineering : Spectral and High Order Methods for Partial Differential Equations - ICOSAHOM 2014, R.M. Kirby, M. Berzins and J.S. Hesthaven Eds, Springer, 397-404, 2015.

  10. R. Pasquetti, N. Peres, A penalty model of synthetic micro-jet actuator with application to the control of wake flows, Computers & Fluids, 114, 203-217, 2015.

  11. S. Minjeaud, R. Pasquetti, High order approximation of a tokamak edge plasma transport minimal model with Bohm boundary conditions, J. of Comput. Phys., 285, 84-87, 2015.

  12. N. Peres, R. Pasquetti, SVV-LES and active control of flow around the square-back Ahmed body, in ERCOFTAC Series : Direct and Large-Eddy Simulation IX, Jochen Fröhlich, Hans Kuerten, Bernard J. Geurts and Vincenzo Armenio Eds, Springer, 73-79, 2015.

  13. A. Bonnement, S. Minjeaud, R. Pasquetti, Towards a Fourier-SEM solver of fluid models in tokamaks, Lecture Notes in Computational Science and Engineering : Spectral and High Order Methods for Partial Differential Equations - ICOSAHOM 2012, 95, Springer, 169-178, 2014.

  14. R. Pasquetti, F. Rapetti, Spectral element methods on simplicial meshes, Lecture Notes in computational Science and Engineering : Spectral and High Order Methods for Partial Differential Equations - ICOSAHOM 2012, 95, Springer, 37-55, 2014.

  15. E. Serre, M. Minguez, R. Pasquetti,E. Guilmineau, G.B. Deng, M. Kornhaas, M. Schaefer, J. Froehlich, C. Hinterberger, W. Rodi, On simulating the turbulent flow around the Ahmed body: a french-german collaborative evaluation of LES and DES, Computers & Fluids, 78, 10-23, 2013.

  16. L. Lazar, R. Pasquetti, F. Rapetti, Fekete-Gauss spectral elements for incompressible Navier-Stokes flows: The two-dimensional case, Comm. in Comput. Phys., 13, 1309-1329, 2013.

  17. J.L. Guermond, R. Pasquetti, A correction technique for the dispersive effects of mass lumping for transport problems, Comput. Methods Appl. Math. Engrg., 253, 186-198, 2012.

  18. L. Biancofiore, F. Gallaire, R. Pasquetti, Influence of confinement on obstacle-free turbulent wakes, Computers & Fluids, 58, 27-44, 2012.

  19. L. Biancofiore, F. Gallaire, R. Pasquetti, Influence of confinement on a two-dimensional wake, J. of Fluid Mech., 688, 297-320, 2011.

  20. M. Minguez, C. Brun, R. Pasquetti, E. Serre, Experimental and high-order LES analysis of the flow in near-wall region of a square cylinder, Int. J. of Heat and Fluid Flows, 32 (3), 558-566, 2011.

  21. J.L. Guermond, R. Pasquetti, B. Popov, Entropy viscosity method for non-linear conservation laws, J. of Comput. Phys., 230 (11), 4248-4267, 2011.

  22. J.L. Guermond, R. Pasquetti, B. Popov, From suitable weak solutions to entropy viscosity, J. of Sci. Comput., 49, 35-50, 2011. Quality and Reliability of Large-Eddy Simulations II, ERCOFTAC Series, 1, Vol. 16, Part 3, 373-390, 2011.

  23. R. Pasquetti, Temporal / spatial simulation of the stratified far wake of a sphere, Computers & Fluids, 40, 179-187, 2010.

  24. R. Pasquetti, F. Rapetti, Spectral element methods on unstructured meshes: Which interpolation points ? Numerical Algorithms, 55 (2-3), 349-366, 2010.

  25. J.L. Guermond, R. Pasquetti, Entropy viscosity method for high-order approximation of conservation laws, Lecture Notes in computational Science and Engineering, 76, Spectral and high order methods for partial differential equations, J.S. Hesthaven & E.M. Ronquist Eds, 411-418, 2010.

  26. M. Minguez, R. Pasquetti, E. Serre, High-order LES of the flow over a simplified car model: on the influence of the Reynolds number, Europ. J. of Comput. Mech., 18 (7-8), 627-646, 2009.

  27. C. Baur, P. Bontoux, M. Kornhaas, M. Minguez, R. Pasquetti, M. Schäfer, E. Serre and E. Séverac, High-order methods for large-eddy simulation in complex geometries, Notes on Numer. Fluid Mech., vol. 104, Numerical simulations of turbulent flows and noise generation, 309-334, 2009.

  28. R. Pasquetti, F. Rapetti, p-multigrid method for Fekete-Gauss spectral element approximations of elliptic problems, Commun. Comput. Phys., 5, No 2-4, 667-682, 2009.

  29. M. Minguez, R. Pasquetti, E. Serre, Spectral vanishing viscosity stabilized LES of the Ahmed body turbulent wake, Commun. Comput. Phys., 5, No 2-4, 535-648, 2009.

  30. M. Minguez, R. Pasquetti, E. Serre, High-order large-eddy simulation of flow over a simplified car model, Phys. Fluids, 20, 095101, 2008.

  31. J.L. Guermond, R. Pasquetti, Entropy-based nonlinear viscosity for Fourier approximations of conservation laws, C.R. Acad. Sci. Paris, Ser. I, 346, 801-806, 2008.

  32. R. Pasquetti, E. Séverac, E. Serre, P. Bontoux, M. Schaefer, From stratified wakes to rotor-stator flows by a SVV-LES method, Theor. Comput. Fluid Dyn., 22, 261-273, 2008.

  33. R. Pasquetti, R. Bwemba, L. Cousin, A pseudo-penalization method for high Reynolds number unsteady flows, Applied Numerical Mathematics, 58 (7), 946-954, 2008.

  34. V. Doléan, R. Pasquetti, F. Rapetti, p-Multigrid for Fekete spectral element method, Lecture Notes in computational Science and Engineering, 60, Springer, Eds U. Langer et al., 485-492, 2007.

  35. L.F. Pavarino, E. Zampieri, R. Pasquetti, F. Rapetti, Overlapping Schwarz methods for Fekete and Gauss-Lobatto spectral elements, SIAM J. Sci. Comput., 29 (3), 1073-1092, 2007.

  36. R. Pasquetti, F. Rapetti, L. Pavarino, E. Zampieri, Neumann-Neumann Schur complement methods for Fekete spectral elements, J. of Eng. Math., 56 (3), 323-335, 2006.

  37. R. Pasquetti, F. Rapetti, Spectral element methods on unstructured meshes: comparisons and recent advances, J. Sci. Comp., 27 (1-3), 377-387, 2006.

  38. R. Pasquetti, Spectral vanishing viscosity method for large-eddy simulation of turbulent flows, J. Sci. Comp., 27 (1-3), 365-375, 2006.

  39. R. Pasquetti, Spectral vanishing viscosity method for LES: Sensitivity to the SVV control parameters, J. of Turbulence, vol. 6, N12, Special issue: Marseille Euromech Colloquium, 2004.

  40. R. Pasquetti, High-order LES modeling of turbulent incompressible flows, C.R. Mécanique, 333, 39-49, 2005.

  41. L. Cousin, R. Pasquetti, High-order methods for the simulation of transitional to turbulent wakes, Advances in Scientific Computing and Applications, Editors Y. Lu, W. Sun, T. Tang, Sciences Press Beijing/New York, pp. 133-143, 2004.

  42. R. Pasquetti, F. Rapetti, Spectral element methods on triangles and quadrilaterals: Comparisons and applications, J. of Comput. Phys., 198, pp. 349-362, 2004.

  43. R. Pasquetti, On inverse methods for the resolution of the Gibbs phenomenon, J. Comp. Appl. Math., 170/2, pp 303-315, 2004.

  44. C.J. Xu, R. Pasquetti, Stabilized spectral element computations of high-Reynolds number incompressible flows, J. of Comput. Phys., 196/2, pp. 680-704, 2004.

  45. W. Borchers, S. Kräutle, R. Pasquetti, R. Peyret, R. Rautmann, Multi-domain Finite Element - Spectral Chebyshev Parallel Navier-Stokes Solver for Viscous Flow Problems, Numerical Flow Simulation III, NNFM 82 , Hirschel Ed., Springer, pp. 3-17, 2003.

  46. R. Pasquetti, C.J. Xu, Comments on “filter-based stabilization of spectral element methods”, Note au J. of Comput. Phys., 182, pp. 646-650, 2002.

  47. R. Pasquetti, C.J. Xu, High-order algorithms for large-eddy simulation of incompressible flows, J. Sci. Comp., 17 (1-3), pp. 273-284, 2002.

  48. C. Sabbah, M.Y. Forestier, R. Pasquetti, Filtering of the pressure spurious modes in PN − PN spectral approximation of the Stokes system, Computers & Fluids, 31 (4-7), pp. 815-823, 2002.

  49. R. Pasquetti, C. Le Niliot, P. Cerisier, Laboratory and numerical investigations on Bénard-Marangoni convection in circular vessels, Phys. Fluids, 14 (1), pp. 277-288, 2002.

  50. O. Botella, M.Y. Forestier, R. Pasquetti, R. Peyret, C. Sabbah, Chebyshev methods for the Navier-Stokes equations: algorithms and applications, Nonlinear Analysis, 47, pp. 4157-4168, 2001.

  51. W. Borchers, S. Kräutle, R. Pasquetti, R. Rautmann, K. Wielage, C. Xu, Towards a parallel hybrid highly accurate Navier-Stokes solver, Numerical Flow Simulation II, NNFM 75 , Hirschel Ed., Springer, pp. 3-18, 2001

  52. C. Sabbah, R. Pasquetti, R. Peyret, Y.D. Chashechkin, V. Levitsky, Numerical and laboratory experiments of sidewall heating thermohaline convection, Int. J. Heat Mass Transfer, 44, pp. 2681-2697, 2001.

  53. C.J. Xu, R. Pasquetti, On the efficiency of semi-implicit and semi-Lagrangian spectral methods for the calculation of incompressible flows, Int. J. Numer. Meth. Fluids, 35, pp. 319-340, 2001.

  54. M.Y. Forestier, R. Pasquetti, R. Peyret, C. Sabbah, Spatial development of wakes using a spectral multi-domain method, Applied Numerical Mathematics, 33, pp. 207-216, 2000.

  55. M. Elghaoui, R. Pasquetti, Mixed spectral-boundary element embedding algorithms for the Navier-Stokes equations in the vorticity-stream function formulation, J. Comput. Phys., 153, pp. 82-100, 1999.

  56. W. Borchers, M.Y. Forestier, S. Kräutle, R. Pasquetti, R. Peyret, R. Rautmann, N. Ross, C. Sabbah, A parallel hybrid highly accurate elliptic solver for viscous flow problems, Numerical Flow Simulation I, NNFM 66 , Hirschel Ed., Vieweg, pp. 3-24, 1998.

  57. C. Sabbah, R. Pasquetti, A divergence-free multi-domain spectral solver of the Navier-Stokes equations in geometries of high aspect ratio, J. Comput. Phys., 139, pp. 359-379, 1998.

  58. R. Peyret, T. Pagès, R. Pasquetti, Interaction of vortices with free surfaces, Zeitschrift-fur-Angewandte-Mathematik-und-Mechanik, 76, suppl., no 4, pp. 305-311, 1996.

  59. P. Cerisier, R. Pasquetti, D.Simeone, The radicular dentine temperature during laser irradiation : a numerical modeling, J. of Clinical Laser Medecine & Surgery, 14, num. 4, pp. 157-162, 1996.

  60. M. Elghaoui, R. Pasquetti, A spectral embedding method applied to the advection-diffusion equation, J. Comput. Phys., 125, pp. 464-476, 1996.

  61. R. Pasquetti, D. Petit, Inverse diffusion by boundary elements, Engineering Analysis with Boundary Elements, 15, pp. 197-205, 1995.

  62. R. Bwemba, R. Pasquetti, On the influence matrix used in the spectral solution of the 2D Stokes problem (vorticity - stream function formulation), Applied Numerical Mathematics, 16, pp. 299-315, 1995.

  63. R. Pasquetti, D. Petit, Inverse-heat-conduction problems with boundary elements : analysis of a corner effect, Engineering Analysis with Boundary Elements, 13, pp. 321-331, 1994.

  64. R. Pasquetti, R. Bwemba, A spectral algorithm for the Stokes problem in vorticity-vector potential formulation and cylindrical geometry, Comput. Methods Appl. Mech. Engrg., 117, pp. 71-90, 1994.

  65. R. Pasquetti, A. Caruso, L.C. Wrobel, Boundary Element Methods in Heat Transfer, Chapitre 2: Transient Problems using time dependent fundamental solutions, Eds L.C. Wrobel, C.A. Brebbia, Computational Mechanics Publications, Elsevier Applied Science, pp. 33-62, 1992.

  66. R. Pasquetti, C. Le Niliot, Boundary element approach for inverse heat conduction problems : application to a transient bidimensional numerical experiment, Numerical Heat Transfer, part B, 20, pp. 169-189, 1991.

  67. D. Maillet, A. Degiovanni, R. Pasquetti, Inverse heat conduction applied to the measurement of heat transfer coefficient on a cylinder : Comparison between an analytical and a boundary element technique, J. of Heat Transfer, 113, pp. 549-557, 1991.

  68. D. Petit, R. Pasquetti, Réduction de modèles par identification de modes dominants; application a un modèle bidimensionnel de diffusion thermique, Rev. Ph. Appl., 25, pp. 831-842, 1990.

  69. M.T. Ben Jaafar, R. Pasquetti, D. Petit, Model reduction for thermal diffusion : application of the Eitelberg, Marshall and aggregation methods to a heat transmission tube model, Int. J. for numerical methods in engineering, 29, pp. 599-617, 1990.

  70. R. Pasquetti, A. Caruso, A boundary element approach for transient and non linear thermal diffusion, Numerical Heat Transfer, part B, 17, pp. 83-99, 1990.

  71. R. Pasquetti, C. Le Niliot, Conduction inverse par éléments de frontière : cas stationnaire, Rev. Phys. Appl., 25, pp. 99-107, 1990

  72. R. Pasquetti, A. Caruso, C.A. Brebbia, Application de la méthode des Eléments de Frontière à la modélisation des processus de diffusion thermique, Rev. Gen. Therm. Fr., 328, pp. 228-234, 1989.

  73. A. Argiriou, R. Pasquetti, F.Papini, A. Arconada, M. Audibert, Thermal study behaviour of the receiver of a focusing solar collector using infrared thermography, Solar Energy, 43, num. 1, pp. 45-55, 1989.

  74. R. Pasquetti, A. Argiriou, F. Papini, Méthodes d’identification et d’exploitation de la séquence de pondération d’un dispositif d’acquisition d’images thermographiques infrarouges, Journal of Modern Optics, 35, num. 10, pp. 1689-1698, 1988.

  75. A. Argiriou, F. Papini, R. Pasquetti, A. Arconada, P. Gallet, M. Audibert, Measurement of brightness concentration distribution in the focal zone of a focusing solar collector with an infrared camera, Solar Energy, 41, num. 3, pp. 267-271, 1988.

  76. J.F. Durastanti, R. Pasquetti, M. Audibert, F. Papini, Modélisation d’un système thermique complexe : la centrale solaire THEK2, Entropie, 142, pp. 21-27, 1988.

  77. R. Pasquetti, D. Petit, Analyse modale d’un processus de diffusion thermique : identification par thermographie infrarouge, Int. J. Heat Mass Transfer, 31, num. 3, pp. 487-496, 1988.

  78. A. Arconada, A. Argiriou, F. Papini, R. Pasquetti, La mesure en thermographie infrarouge: calibration et traitement du signal, Journal of Modern Optics, 34, num. 10, pp. 1327-1335, 1987.

  79. R. Pasquetti, J.F. Durastanti, Modélisation des réseaux de transfert de chaleur à collecteurs bitubulaires et fluide caloporteur incompressible, Int. Comm. Heat Mass Transfer, 14, num.4, pp. 467-475, 1987.

  80. R. Pasquetti, Chauffage de fluides par capteurs solaires à concentration, Techniques de l’Ingénieur, B 2420, pp. 1-24, 1987.

  81. R. Pasquetti, Etude numérique des convertisseurs héliothermiques tubulaires; Application aux capteurs THEK. Rev. Phys. Appl., 21, pp. 785-794, 1986

  82. R. Pasquetti, J. Suzzoni, M. Audibert, J.P. Battistelli, F.Papini, Etude en régime dynamique des convertisseurs héliothermiques tubulaires, Rev. Gén. Therm. Fr., 270-271, pp. 413-420, 1984.

  83. R. Pasquetti, Détermination numérique de la distribution des concentrations ponctuelles au foyer des concentrateurs à facettes, Rev. Phys. Appl., 19, pp. 455-460, 1984.

  84. R. Pasquetti, F. Papini, A. Arconada, J.P. Battistelli, H. Cherif, Méthode de mesure directe de l’émissivité des matériaux semitransparents, Rev. Gén. Therm. Fr., 258-259, pp. 449-452, 1983.

  85. J.P. Battistelli, R. Pasquetti, M. Audibert, Etude et optimisation du convertisseur héliothermique au foyer d’un concentrateur de type THEK, Rev.Gén. Therm. Fr., 258-259, pp. 453-465, 1983.

  86. R. Pasquetti, G. Péri, Etude des performances optiques des concentrateurs paraboliques à facettes planes développés dans le cadre du programme THEK, Rev. Phys. Appl., 15, num. 2, pp. 123-129, 1980

  87. R. Pasquetti, Optimisation du réseau de transfert thermique des centrales solaires à convertisseurs héliothermiques distribués; Application aux capteurs de type THEK, Rev. Phys. Appl., 14, pp. 35-47, 1979.

  88. B. Imbert, R. Pasquetti, Détermination de la concentration géométrique d’un capteur solaire à miroir sphérique, J. Optics (Paris), 9, num. 1, pp. 25-30, 1978.

  89. R. Pasquetti, F. Papini, Thermal conversion of solar radiation : theoretical performances of collectors furnished with an absorbant selective surface, Solar Energy, 21, pp. 129-138, 1978.

  90. R. Pasquetti, F. Papini, Etude et réalisation d’une surface sélective destinée à la conversion de l’énergie solaire : application à la moyenne température, Nouvelle Revue d’Optique, 7, num. 16, pp. 375-380, 1976.

  91. R. Pasquetti, F. Papini, P. Gallet, Influence sur le bilan radiatif des propriétés optiques d’une surface exposée au rayonnement solaire, Rev. Gén. Therm. Fr., 15, num. 169, pp. 13-17, 1976.