%0 Journal Article %1 hiptmair2002finite %A Hiptmair, R. %B Acta Numerica %D 2002 %I Cambridge University Press %K 65n30-pdes-bvps-finite-elements 78m10-optics-electromagnetism-finite-element-method %P 237-339 %R 10.1017/S0962492902000041 %T Finite elements in computational electromagnetism %U https://www.cambridge.org/core/article/finite-elements-in-computational-electromagnetism/C145D69E9F4109563E8EFFB9DB963C09 %V 11 %X This article discusses finite element Galerkin schemes for a number of linear model problems in electromagnetism. The finite element schemes are introduced as discrete differential forms, matching the coordinate-independent statement of Maxwell's equations in the calculus of differential forms. The asymptotic convergence of discrete solutions is investigated theoretically. As discrete differential forms represent a genuine generalization of conventional Lagrangian finite elements, the analysis is based upon a judicious adaptation of established techniques in the theory of finite elements. Risks and difficulties haunting finite element schemes that do not fit the framework of discrete differential forms are highlighted.

@article{hiptmair2002finite, abstract = {This article discusses finite element Galerkin schemes for a number of linear model problems in electromagnetism. The finite element schemes are introduced as discrete differential forms, matching the coordinate-independent statement of Maxwell's equations in the calculus of differential forms. The asymptotic convergence of discrete solutions is investigated theoretically. As discrete differential forms represent a genuine generalization of conventional Lagrangian finite elements, the analysis is based upon a judicious adaptation of established techniques in the theory of finite elements. Risks and difficulties haunting finite element schemes that do not fit the framework of discrete differential forms are highlighted.}, added-at = {2022-02-21T03:47:09.000+0100}, author = {Hiptmair, R.}, biburl = {https://www.bibsonomy.org/bibtex/2ade982472a3a802ee1382a657b19af35/gdmcbain}, booktitle = {Acta Numerica}, doi = {10.1017/S0962492902000041}, interhash = {af11f35ac0b8cd7b6878443e7638f9bd}, intrahash = {ade982472a3a802ee1382a657b19af35}, issn = {09624929}, keywords = {65n30-pdes-bvps-finite-elements 78m10-optics-electromagnetism-finite-element-method}, pages = {237-339}, publisher = {Cambridge University Press}, timestamp = {2022-02-21T03:47:09.000+0100}, title = {Finite elements in computational electromagnetism}, url = {https://www.cambridge.org/core/article/finite-elements-in-computational-electromagnetism/C145D69E9F4109563E8EFFB9DB963C09}, volume = 11, year = 2002 }