Optical Modulation of Millimeter-Wave Beams Using a Semiconductor Substrate

Optical Modulation of Millimeter-Wave Beams Using a Semiconductor Substrate

Modulation of millimeter and submillimeter-wave beams via an optically excited semiconductor substrate is a potentially powerful technique, but typically requires high optical illumination densities. Various methods are outlined that yield reduced illumination levels and enable optimization of the s...

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Veröffentlicht in:IEEE transactions on microwave theory and techniques 2012-07, Vol.60 (7), p.2301-2309
Hauptverfasser: Gallacher, T. F., Sondena, R., Robertson, D. A., Smith, G. M.
Format: Artikel
Sprache:eng
Schlagworte:
Antennas
Applied sciences
Attenuation
Beam forming
beam steering
Beams (radiation)
Charge carrier density
Circuit properties
Density
Devices
Electric, optical and optoelectronic circuits
Electronics
Exact sciences and technology
Fresnel zone plate (FZP)
Illumination
Lighting
Microwave circuits, microwave integrated circuits, microwave transmission lines, submillimeter wave circuits
Microwaves
Modulation
Optical attenuators
Optical surface waves
optically controlled antenna
opto-electronic
photo-injected Fresnel zone plate
Radiocommunications
Semiconductors
Silicon
Telecommunications
Telecommunications and information theory
Transmission line measurements
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Beschreibung
Zusammenfassung:Modulation of millimeter and submillimeter-wave beams via an optically excited semiconductor substrate is a potentially powerful technique, but typically requires high optical illumination densities. Various methods are outlined that yield reduced illumination levels and enable optimization of the substrate. As an example device, the photo-injected Fresnel zone plate antenna (piFZPA) is presented, and we discuss the realization of this spatial modulating device at millimeter-wave frequencies. Preliminary data is presented demonstrating the realization of a 100-mm aperture F/1.2 piFZPA at 94 GHz, using a retail visible data projector as a programmable broadband light source and spatial light modulator. The demonstrated antenna can be steered precisely in two dimensions and yielded a 36-dBi directivity with excellent mainlobe symmetry, and a 12-dB peak sidelobe level.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2012.2193142