论文信息 - Boundary Conditions and Layer technique for the Simulation of Electromagnetic Waves above a Lossy Medium

Boundary Conditions and Layer technique for the Simulation of Electromagnetic Waves above a Lossy Medium

Two inovative techniques for the simulation of the effect of a lossy dielectric half-space are derived and analysed. The first is an adapted impedance surface condition imposed at the interface to replace the dielectric medium. This condition, when coupled with Maxwell's equations yields a stable system which can be written in a variational form. It allows us to take into acccount both the polarization and the angle of incidence of the out-going waves. The second technique is a generalization of the Berenger perfectly matched layers: the dielectric is now replaced by a short length layer in which the waves are governed by a modification of Maxwell's equations. For this model, the two reflection coefficients are the same as for the true dielectric while the damping inside the layer is enforced.

Francis Collino

[1] Bernard Jecko,et al. Implementation of a surface impedance formalism at oblique incidence in FDTD method , 1993 .

[2] James G. Maloney,et al. The use of surface impedance concepts in the finite-difference time-domain method , 1992 .

[3] F. Collino. Conditions absorbantes d'ordre eleve pour des modeles de propagation d'onde dans des domaines rectangulaires , 1992 .

[4] L. Trefethen,et al. Well-Posedness of one-way wave equations and absorbing boundary conditions , 1986 .

[5] Rosemary A. Renaut,et al. Higher order absorbing boundary conditions for the finite-difference time-domain method , 1992 .

[6] D. Katz,et al. Validation and extension to three dimensions of the Berenger PML absorbing boundary condition for FD-TD meshes , 1994, IEEE Microwave and Guided Wave Letters.

[7] Jean-Pierre Berenger,et al. A perfectly matched layer for the absorption of electromagnetic waves , 1994 .

[8] P. Joly,et al. Une nouvelle condition transparente d'ordre 2 pour les equations de Maxwell en dimension 3 , 1989 .

[9] E. Lindman. “Free-space” boundary conditions for the time dependent wave equation , 1975 .