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1 June 1991 Scattering liquid crystal in optical attenuator applications
Arto Karppinen, Harri K. Kopola, Risto A. Myllylae
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Proceedings Volume 1455, Liquid-Crystal Devices and Materials; (1991) https://doi.org/10.1117/12.44690
Event: Electronic Imaging '91, 1991, San Jose, CA, United States
Abstract
Several possibilities based on the principles of the scattering and polarization of light in liquid crystals and PLZT ceramics were studied for the replacement of mechanical shutters and attenuators in optical instruments. A scatter mode liquid crystal was selected as the active material, and two modules were developed for fiber optic attenuator applications. In the first, the light transmitted through an optical fiber (input fiber, (phi) 100/140 micrometers ) is collimated to a beam using a Selfoc microlens (0.25 P, (phi) 1.8 mm). This beam penetrates two LC cells (7 X 12 mm2) and is received by a Selfoc microlens at the output fiber. The second, for large-diameter fibers ((phi) 400 micrometers ), employed conventional aspherical lenses to optimize the fiber-to-fiber coupling instead of microlenses. Components were built for both (phi) 100 micrometers and (phi) 400 micrometers fibers. The maximum transmission is up to 70% and maximum contrasts 10,000:1 (632.8 nm), 3000:1 (830 nm) and 1200:1 (905 nm). The rise time is typically under 1 ms and the decay time under 5 ms, given a temperature above +20 degree(s)C. The contrast remains high from 0 degree(s)C to +50 degree(s)C. Both components function with +/- 100 VAC.
© (1991) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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Arto Karppinen, Harri K. Kopola, and Risto A. Myllylae "Scattering liquid crystal in optical attenuator applications", Proc. SPIE 1455, Liquid-Crystal Devices and Materials, (1 June 1991); https://doi.org/10.1117/12.44690
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Cited by 3 scholarly publications.
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KEYWORDS
Liquid crystals
Attenuators
Microlens
Transmittance
Fiber optics
Scattering
Electro optics
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