The Finite Element Method for Electromagnetic Modeling

the long version

Contents: 1. Introduction to nodal finite elements, J.L. Coulomb. 2. Static formulations: electrostatic, electrokinetic, magnetostatics, P. Dular, F. Piriou. 3. Magnetodynamic formulations, Z. Ren, F. Bouillault. 4. Mixed finite element methods in electromagnetism, B. Bandelier, F. Rioux-Damidau. 5. Behavior laws of materials, F. Bouillault, A. Kedous-Lebouc, G. Meunier, F. Ossart, F. Piriou. 6. Modeling on thin and line regions, C. Guérin. 7. Coupling with circuit equations, G. Meunier, Y. Lefevre, P. Lombard, Y. Le Floch. 8. Modeling of motion: accounting for movement in the modeling of magnetic phenomena, V. Leconte. 9. Symmetric components and numerical modeling, J. Lobry, E. Nens, C. Broche. 10. Magneto-thermal coupling, M. Féliachi, J. Fouladgar. 11. Magneto-mechanical modeling, Y. Lefevre, G. Reyne. 12. Magnetohydrodynamics: modeling of a kinematic dynamo, F. Plunian, P. Massé. 13. Mesh generation, Y. Du Terrail Couvat, F.X. Zgainski, Y. Maréchal. 14. Optimization, J.L. Coulomb.