5 Publications 5.1 Conference Proceedings [EMA1] A. BENDALI, M. FARES, K. LEMRABET, F. MILLOT, and S. PERNET, (<strong>2011</strong>), A Combined Field Integral Equation for Higher-order Generalized Impedance Conditions, Marrakesh, Morocco, PIERS. [EMA2] A. BONNET, J. MERCIER, and F. MILLOT, (<strong>2011</strong>), Time harmonic acoustic scattering in presence of a shear flow and a Myers impedance condition, Portland, 32nd AIAA Aeroacoustics Conference. [EMA3] J. LAURENT, V. MOUYSSET, S. PERNET, and X. FERRIERES, (<strong>2011</strong>), Development of an adaptive mesh in a discontinuous Galerkin method for time Maxwells equations, Vancouver, Waves. [EMA4] D. LEVADOUX, F. MILLOT, and S. PERNET, (<strong>2010</strong>), Comparison between the Classical Integral Equations and a Well Conditioned Integral Equation, Cambridge, USA, PIERS. [EMA5] D. LEVADOUX, F. MILLOT, and S. PERNET, (<strong>2010</strong>), Intrinsically well-conditioned integral equations for scattering by homogeneous bodies, Toulouse, France, SCEE. [EMA6] E. PEYNAUD, F. MILLOT, S. PERNET, A. BONNET, and J. MERCIER, (<strong>2011</strong>), A mixed continuous/discontinuous finite element method for acoustics in an arbitrary flow, Vancouver, Waves. [EMA7] E. PEYNAUD, F. MILLOT, S. PERNET, A. BONNET, and J. MERCIER, (<strong>2011</strong>), Galbrun based numerical scheme to compute time-harmonic scattering in an arbitrary mean flow, Portland, 32nd AIAA Aeroacoustics Conference. [EMA8] E. PEYNAUD, (<strong>2010</strong>), Résolution de l’équation d’advection en régime harmonique, , CANUM. 5.2 Journal publications [EMA9] B. BENDALI, A. MAKHLOUF, and S. TORDEUX, (<strong>2010</strong>), Justification of the cavity model in the numerical simulation of patch antennas by the method of matched asymptotic expansions, SIAM Multiscale Modeling and Simulation, 8, 1902–1922. [EMA10] B. BENDALI, A. MAKHLOUF, and S. TORDEUX, (<strong>2011</strong>), Field behavior near the edge of a patch antenna by the method of matched asymptotic expansions, Quaterly of Applied Mathematics, 69, 691–721. [EMA11] A. BONNET-BEN DHIA, J. MERCIER, F. MILLOT, and S. PERNET, (<strong>2010</strong>), A low-Mach number model for time-harmonic acoustics in arbitrary flows, Journal of Computational and Applied Mathematics, 234, 1868–1875. [EMA12] A. BONNET-BEN DHIA, J. MERCIER, E. REDON, and S. POERNOMI SARI, (<strong>2011</strong>), Non-reflecting boundary conditions for acoustic propagation in ducts with acoustic treatment and mean flow, Int. J. Numer. Methods Eng., 86, 1360–1378. [EMA13] F. COLLINO and X. CLAEYES, (<strong>2010</strong>), Augmented Galerkin Scheme for the Solution of Scattering by small obstacles, Numerische Mathematik, 116, 246–268. [EMA14] A. COSSONIÈRE and H. HADDAR, (<strong>2011</strong>), The electromagnetic interior transmission problem for regions with cavities, SIAM J. Math. Anal., 43, 1698–1715. [EMA15] M. FARES, S. GRATTON, and P. TOINT, (<strong>2011</strong>), Fast regularized linear sampling for inverse scattering problems, Num. Linear Algebra with Apllications, 18, 55–68. [EMA16] M. FARES, J. HESTHAVEN, Y. MADAY, and B. STAMM, (<strong>2011</strong>), Reduced Basis Method for the parametrized Electric Field Integral Equation, J. Comput. Phys., 14, 5532–5555. [EMA17] D. LEVADOUX, F. MILLOT, and S. PERNET, (<strong>2010</strong>), New Trends in the Preconditioning of Integral Equations of Electromagmetism, Mathematics in Industry, 14, 383–394. [EMA18] S. PERNET, (<strong>2010</strong>), A well-conditioned integral equation for iterative solution of scattering problems with a variable Leontovitch boundary condition, Mathematical Modelling and Numerical Analysis, 44, 781–801. 68 <strong>Jan</strong>. <strong>2010</strong> – <strong>Dec</strong>. <strong>2011</strong>
ELECTROMAGNETISM AND ACOUSTICS TEAM 5.3 Technical <strong>Report</strong>s [EMA19] J. BART, (<strong>2011</strong>), Méthode itérative de décomposition de domaine pour l’équation de Galbrun, Tech. Rep. WN/EMC/11/129, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA20] A. BENDALI, F. COLLINO, and S. PERNET, (<strong>2010</strong>), Méthodes numériques pour le calcul de la diffraction par une cavité revêtue, Tech. Rep. CR-EMA-10-135, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA21] A. BENDALI, F. COLLINO, M. FARES, and B. STEIF, (<strong>2010</strong>), Stabilisation de l’/’equation int/’egrale courants et charges, Tech. Rep. CR-EMA-10-134, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA22] C. BERNARD, (<strong>2010</strong>), Adaptation de la méthode multipole au cas de structures périodiques, Tech. Rep. WN-EMA-10-61, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA23] A. BONNET, F. MILLOT, S. PERNET, and E. PEYNAUD, (<strong>2011</strong>), Analysis of a discontinuous galerkin method for a time harmonic convection equation, Tech. Rep. TR/EMC/11/132, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA24] Y. BOUHLEL, (<strong>2010</strong>), Résolution itérative de l’équation de Galbrun, Tech. Rep. WN-EMA-10-73, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA25] F. COLLINO and F. MILLOT, (<strong>2011</strong>), Evaluation des performances du code CESC-FMM pour des applications CNES, Tech. Rep. CR/EMC/11/131, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA26] A. COSSNIÈRE, (<strong>2010</strong>), Fréquences propres de transmission pour les équations de Maxwell, Tech. Rep. SR-EMA-10-129, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA27] A. DE CECCO, (<strong>2011</strong>), Estimateur d’erreur a posteriori pour les équations intégrales en acoustique, Tech. Rep. WN/EMC/11/128, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. [EMA28] F. MILLOT and S. PERNET, (<strong>2011</strong>), Analyse des performances d’une formulation intégrale de type GSIE pour des problèmes de diffractions avec condititions d’impédance, Tech. Rep. CR/EMC/11/131, C.E.R.F.A.C.S, 42,av. G. Coriolis,31057 Toulouse Cedex France. 5.4 Thesis [EMA29] A. Cossonière, (<strong>2011</strong>), Valeurs propres de transmission et leur utilisation dans l’identification d’inclusions à partir de mesures électromagnétiques, PhD thesis, Université Paul Sabatier, - Institut National des Sciences Appliques de Toulouse, France. <strong>CERFACS</strong> ACTIVITY REPORT 69