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A linear nonconforming finite element method for Maxwell’s equations in two dimensions. Part I: Frequency domain

✍ Scribed by Peter Hansbo; Thomas Rylander

Publisher
Elsevier Science
Year
2010
Tongue
English
Weight
971 KB
Volume
229
Category
Article
ISSN
0021-9991

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✦ Synopsis

We suggest a linear nonconforming triangular element for Maxwell's equations and test it in the context of the vector Helmholtz equation. The element uses discontinuous normal fields and tangential fields with continuity at the midpoint of the element sides, an approximation related to the Crouzeix-Raviart element for Stokes. The element is stabilized using the jump of the tangential fields, giving us a free parameter to decide. We give dispersion relations for different stability parameters and give some numerical examples, where the results converge quadratically with the mesh size for problems with smooth boundaries. The proposed element is free from spurious solutions and, for cavity eigenvalue problems, the eigenfrequencies that correspond to well-resolved eigenmodes are reproduced with the correct multiplicity.

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A finite volume method for the approximation of Maxwell’s equations in two space dimensions on arbitrary meshes
✍ F. Hermeline; S. Layouni; P. Omnes 📂 Article 📅 2008 🏛 Elsevier Science 🌐 English ⚖ 693 KB

A new finite volume method is presented for discretizing the two-dimensional Maxwell equations. This method may be seen as an extension of the covolume type methods to arbitrary, possibly non-conforming or even non-convex, n-sided polygonal meshes, thanks to an appropriate choice of degrees of freed