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Mie Homogen Sphere
Computes Mie scattering for an homogene sphere (and for a perfectly conductor one as well). It also computes extinction efficiencies; asymmetry factor; forward- and backscatter amplitude; scattering amplitudes vs. scattering angle for incident polarization parallel and perpendicular to the plane of scattering; some quantities needed in polarized radiative transfer; and information about whether or not a resonance has been hit. | | MOM on plates
The code here presented evaluates the fields scattered by a perfectly conductor rectangular plate using the classic Method of Moments.
The MOM formulation uses the RWG functions as basis and test functions. It applies the Galerkin formulation. | | Pole Location
This procedure gives an estimation of the location of the first TM surface wave pole. Taking into account lossless substrates and under specific restrictions the position of the dominant surface wave pole can be evaluated through an approximated eqaution. | |
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