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A quasi-planar incident wave excitation for time-domain scattering analysis of periodic structures

✍ Scribed by David Degerfeldt; Tomas Halleröd; Börje Emilsson; Anders Bondeson; Thomas Rylander

Publisher: John Wiley and Sons
Year: 2006
Tongue: English
Weight: 245 KB
Volume: 19
Category: Article
ISSN: 0894-3370
DOI: 10.1002/jnm.619

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✦ Synopsis

We present a quasi-planar incident wave excitation for time-domain scattering analysis of periodic structures. It uses a particular superposition of plane waves that yields an incident wave with the same periodicity as the periodic structure itself. The duration of the incident wave is controlled by means of its frequency spectrum or, equivalently, the angular spread in its constituting plane waves. Accuracy and convergence properties of the method are demonstrated by scattering computations for a planar dielectric half-space. Equipped with the proposed source, a time-domain solver based on linear elements yields an error of roughly 1% for a resolution of 20 points per wavelength and second-order convergence is achieved for smooth scatterers. Computations of the scattering characteristics for a sinusoidal surface and a random rough surface show similar performance.

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## Abstract An efficient adjoint variable method technique is developed for time‐domain sensitivity analysis of planar structures with transmission‐line modeling complemented by a first‐order one‐way wave‐equation absorbing boundaries. A backward‐running adjoint simulation is derived and solved. Th