In this paper we present a novel model for the design of micrometric optical antennas. The accuracy of the model allows to evaluate the near field generated by a micrometric aperture in parallel-plate waveguides. The model starts from the equivalent source distribution of magnetic current excitation of a rectangular aperture and it proceeds by employing the multipole expansion of the Green's function (MEG) applied to the aperture, including the analysis of the electromagnetic field in proximity of metallic discontinuities. The presented method introduces the novel principle of simultaneous transverse resonance diffraction (STRD) which determines the order of singularity for different edges at optical frequencies. The approach is suitable for inclusion in standard electromagnetic (EM) simulators. © 2011 IEEE.
MEG/STRD modeling of optical antenna sensors as micro rectangular apertures
Massaro A;
2011
Abstract
In this paper we present a novel model for the design of micrometric optical antennas. The accuracy of the model allows to evaluate the near field generated by a micrometric aperture in parallel-plate waveguides. The model starts from the equivalent source distribution of magnetic current excitation of a rectangular aperture and it proceeds by employing the multipole expansion of the Green's function (MEG) applied to the aperture, including the analysis of the electromagnetic field in proximity of metallic discontinuities. The presented method introduces the novel principle of simultaneous transverse resonance diffraction (STRD) which determines the order of singularity for different edges at optical frequencies. The approach is suitable for inclusion in standard electromagnetic (EM) simulators. © 2011 IEEE.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
