TY - GEN
T1 - Numerical solution to Maxwell's equations in singular waveguides
AU - Assous, Franck
PY - 2007
Y1 - 2007
N2 - This paper is devoted to the numerical solution of the instationary Maxwell equations in singular waveguides. The geometry is called singular, in the sense that its boundary can include reentrant corners or edges. The difficulties arise from the fact that those geometrical singularities generate, in their neighborhood, strong electromagnetic fields. Using some new theoretical and practical results on singular electromagnetic fields, we have built a method which allows to compute the time-dependent electromagnetic field. It is based on a splitting of the spaces of solutions into a two-term direct (orthogonal) sum. First, the subspace of regular fields, which coincides with the whole space of solutions, in the case of convex or smooth boundary. Second, a singular subspace, defined and characterized via the singularities of the Laplace operator. Numerical results are presented to illustrate how the frequency of the ingoing electromagnetic waves influences the singular solution in a L-shaped waveguide.
AB - This paper is devoted to the numerical solution of the instationary Maxwell equations in singular waveguides. The geometry is called singular, in the sense that its boundary can include reentrant corners or edges. The difficulties arise from the fact that those geometrical singularities generate, in their neighborhood, strong electromagnetic fields. Using some new theoretical and practical results on singular electromagnetic fields, we have built a method which allows to compute the time-dependent electromagnetic field. It is based on a splitting of the spaces of solutions into a two-term direct (orthogonal) sum. First, the subspace of regular fields, which coincides with the whole space of solutions, in the case of convex or smooth boundary. Second, a singular subspace, defined and characterized via the singularities of the Laplace operator. Numerical results are presented to illustrate how the frequency of the ingoing electromagnetic waves influences the singular solution in a L-shaped waveguide.
KW - Finite-element method
KW - Maxwell's equation
KW - Singular geometry
KW - Waveguide
UR - http://www.scopus.com/inward/record.url?scp=84888322902&partnerID=8YFLogxK
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AN - SCOPUS:84888322902
SN - 9789889867171
T3 - Lecture Notes in Engineering and Computer Science
SP - 2366
EP - 2371
BT - IMECS 2007 - International MultiConference of Engineers and Computer Scientists 2007
T2 - International MultiConference of Engineers and Computer Scientists 2007, IMECS 2007
Y2 - 21 March 2007 through 23 March 2007
ER -