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RESEARCH PRODUCT
Communication modes in vector diffraction
Per MartinssonPing MaHanna LajunenAri T. Fribergsubject
Electromagnetic fieldDiffractionGuided-mode resonanceta221diffractionoptical informationsymbols.namesakeOpticspropagationStokes parametersElectrical and Electronic Engineeringta218Physicsta214ta114business.industryOptical polarizationwave opticsPhysical opticsPolarization (waves)Atomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsWavelengthsymbolsbusinessnear fieldsdescription
The communication modes, which mathematically correspond to singular value decomposition, have proven a useful concept in optical scalar-field diffraction, with applications in resolution studies, image synthesis, and wave propagation. For optical near-field geometries the communication modes have to be extended to electromagnetic field accounting for the polarization properties. In this paper we present the vector-valued communication modes method based on the rigorous electric-field diffraction integral. As a special case the transverse-electric scalar field modes are obtained. The intensity and polarization properties of the leading electromagnetic communication modes in near-field arrangements with rectangular apertures are discussed in terms of the Stokes parameters. For small separations between the transmitting and receiving apertures the fundamental mode possesses a ring-shaped hollow structure. The polarization properties of the near-field modes show features on spatial scales smaller than the wavelength of light. The system symmetries lead to degenerate communication modes.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2010-11-01 | Optik |