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Electrically Tunable Lens Based on a Dual-Frequency Nematic Liquid Crystal
Applied Optics (2006)
  • Oleg Pishnyak
  • Susumu Sato
  • Oleg Lavrentovich, Kent State University - Kent Campus

We report on an electrically controlled liquid-crystal-based variable optical lens filled with a dual-frequency nematic material. The lens design employs a hole-patterned electrode structure in a flat nematic cell. In order to decrease the lens switching time we maximize the dielectric torque by using a dual-frequency nematic material that is aligned at an angle approximately 45 degrees with respect to the bounding plates by obliquely deposited SiOx, and by using an overdrive scheme of electrical switching. Depending on the frequency of the applied field, the director realigns either toward the homeotropic state (perpendicular to the substrates) or toward the planar state (parallel to the substrates), which allows one to control not only the absolute value of the focal length but also its sign. Optical performance of the liquid-crystal lens is close to that of an ideal thin lens. (c) 2006 Optical Society of America.

  • Variable Focal Length,
  • Patterned Electrodes,
  • Fresnel Lens,
  • Microlens,
  • Field,
  • Performance,
  • Cells
Publication Date
July 1, 2006
Publisher Statement
This paper was published in Applied Optics and is made available as an electronic reprint with the permission of OSA. The paper can be found at the following URL on the OSA website: Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.
Citation Information
Oleg Pishnyak, Susumu Sato and Oleg Lavrentovich. "Electrically Tunable Lens Based on a Dual-Frequency Nematic Liquid Crystal" Applied Optics Vol. 45 Iss. 19 (2006)
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