| The linear sampling method in inverse electromagnetic scattering theory D Colton, H Haddar, M Piana Inverse problems 19 (6), S105, 2003 | 416 | 2003 |
| The existence of an infinite discrete set of transmission eigenvalues F Cakoni, D Gintides, H Haddar SIAM Journal on Mathematical Analysis 42 (1), 237-255, 2010 | 301 | 2010 |
| Inverse scattering theory and transmission eigenvalues F Cakoni, D Colton, H Haddar Society for Industrial and Applied Mathematics, 2022 | 247 | 2022 |
| On the determination of Dirichlet or transmission eigenvalues from far field data F Cakoni, D Colton, H Haddar Comptes rendus. Mathématique 348 (7-8), 379-383, 2010 | 185 | 2010 |
| Transmission eigenvalues in inverse scattering theory F Cakoni, H Haddar Inside Out II 60, 527-578, 2012 | 172 | 2012 |
| On the existence of transmission eigenvalues in an inhomogeneous medium F Cakoni, H Haddar Applicable Analysis 88 (4), 475-493, 2009 | 150 | 2009 |
| An application of the reciprocity gap functional to inverse scattering theory D Colton, H Haddar Inverse Problems 21 (1), 383, 2005 | 143 | 2005 |
| The linear sampling method for anisotropic media F Cakoni, D Colton, H Haddar Journal of computational and applied mathematics 146 (2), 285-299, 2002 | 137 | 2002 |
| The linear sampling method for solving the electromagnetic inverse scattering problem D Colton, H Haddar, P Monk SIAM Journal on Scientific Computing 24 (3), 719-731, 2003 | 136 | 2003 |
| Generalized impedance boundary conditions for scattering by strongly absorbing obstacles: the scalar case H Haddar, P Joly, HM Nguyen Mathematical Models and Methods in Applied Sciences 15 (08), 1273-1300, 2005 | 130 | 2005 |
| Analysis of two linear sampling methods applied to electromagnetic imaging of buried objects F Cakoni, H Haddar Inverse Problems 22 (3), 845, 2006 | 119 | 2006 |
| The linear sampling method for solving the electromagnetic inverse medium problem H Haddar, P Monk Inverse problems 18 (3), 891, 2002 | 100 | 2002 |
| The interior transmission problem for anisotropic Maxwell's equations and its applications to the inverse problem H Haddar Mathematical methods in the applied sciences 27 (18), 2111-2129, 2004 | 99 | 2004 |
| Stability of thin layer approximation of electromagnetic waves scattering by linear and nonlinear coatings H Haddar, P Joly Journal of computational and applied mathematics 143 (2), 201-236, 2002 | 98 | 2002 |
| Generalized impedance boundary conditions for scattering problems from strongly absorbing obstacles: The case of Maxwell's equations H Haddar, P Joly, HM Nguyen Mathematical Models and Methods in Applied Sciences 18 (10), 1787-1827, 2008 | 93 | 2008 |
| Approximate models for wave propagation across thin periodic interfaces B Delourme, H Haddar, P Joly Journal de mathématiques pures et appliquées 98 (1), 28-71, 2012 | 92 | 2012 |
| A sampling method for inverse scattering in the time domain Q Chen, H Haddar, A Lechleiter, P Monk Inverse Problems 26 (8), 085001, 2010 | 91 | 2010 |
| A generalized formulation of the linear sampling method with exact characterization of targets in terms of farfield measurements L Audibert, H Haddar Inverse Problems 30 (3), 035011, 2014 | 90 | 2014 |
| The interior transmission problem for regions with cavities F Cakoni, D Colton, H Haddar SIAM journal on mathematical analysis 42 (1), 145-162, 2010 | 90 | 2010 |
| On the use of T-coercivity to study the interior transmission eigenvalue problem ASBB Dhia, L Chesnel, H Haddar Comptes Rendus Mathematique 349 (11-12), 647-651, 2011 | 84 | 2011 |