Millimeter-wave beam shaping using holograms

We synthesize amplitude- and phase-type computer-generated holograms (diffractive gratings) for shaping millimeter-wave fields. We design holograms using quasi-optical back-propagation and rigorous optimization methods adopted from diffractive optics. We present experimental results from a plane-wav...

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Veröffentlicht in:IEEE transactions on microwave theory and techniques 2003-04, Vol.51 (4), p.1274-1280
Hauptverfasser: Meltaus, J., Salo, J., Noponen, E., Salomaa, M.M., Viikari, V., Lonnqvist, A., Koskinen, T., Saily, J., Hakli, J., Ala-Laurinaho, J., Mallat, J., Raisanen, A.V.
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container_issue 4
container_start_page 1274
container_title IEEE transactions on microwave theory and techniques
container_volume 51
creator Meltaus, J.
Salo, J.
Noponen, E.
Salomaa, M.M.
Viikari, V.
Lonnqvist, A.
Koskinen, T.
Saily, J.
Hakli, J.
Ala-Laurinaho, J.
Mallat, J.
Raisanen, A.V.
description We synthesize amplitude- and phase-type computer-generated holograms (diffractive gratings) for shaping millimeter-wave fields. We design holograms using quasi-optical back-propagation and rigorous optimization methods adopted from diffractive optics. We present experimental results from a plane-wave-generating hologram and a custom-designed field shaper at 310 GHz. Holograms can be applied, e.g., in a compact antenna test range and we propose their use for alignment purposes.
doi_str_mv 10.1109/TMTT.2003.809679
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subjects Antennas
Beams (radiation)
Diffraction gratings
Diffractive optics
Holograms
Holographic optical components
Holography
Laboratories
Microwaves
Millimeter wave technology
Optical diffraction
Optical films
Optical scattering
Optical vortices
Optimization
Testing
title Millimeter-wave beam shaping using holograms
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