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Ferroelectrics Volume 114, 1991 - Issue 1
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Original Articles

Optical phase conjugation using optically addressed chiral smectic liquid crystal spatial light modulators

C. C. Mao Department of Electrical and ComputerEngineering, University of Colorado at Boulder, Boulder, U. S. A.
,
K. M. Johnson Department of Electrical and ComputerEngineering, University of Colorado at Boulder, Boulder, U. S. A.
&
G. Modde Department of Electrical and ComputerEngineering, University of Colorado at Boulder, Boulder, U. S. A.
Pages 45-53 | Published online: 09 Feb 2011

Citations (13)

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Read on this site (3)

Koichiro Shirota, Ichirou Yamaguchi, Kiyoshi Kanie, Tomiki Ikeda, Tamejiro Hiyama, Ichiro Kobayashi & Yoshiichi Suzuki. (2000) Optical switching and alignment of antiferroelectric liquid crystals containing an azo group. Liquid Crystals 27:5, pages 555-558.
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C.C. Mao, B. Landreth, K.M. Johnson & G. Moddel. (1991) Photovoltaic optically addressed spatial light modulator. Ferroelectrics 122:1, pages 101-112.
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WilbertJ.A.M. Hartmann. (1991) Ferroelectric liquid crystal displays for television application. Ferroelectrics 122:1, pages 1-26.
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Articles from other publishers (10)

Jiarui Li, Haoyun Wei & Yan Li. (2019) Beam drift reduction by straightness measurement based on a digital optical phase conjugation. Applied Optics 58:27, pages 7636.
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Marcus Reicherter, Susanne Zwick, Tobias Haist, Christian Kohler, Hans Tiziani & Wolfgang Osten. (2006) Fast digital hologram generation and adaptive force measurement in liquid-crystal-display-based holographic tweezers. Applied Optics 45:5, pages 888.
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S. Bartkiewicz, K. Matczyszyn, A. Miniewicz & F. Kajzar. (2001) High gain of light in photoconducting polymer–nematic liquid crystal hybrid structures. Optics Communications 187:1-3, pages 257-261.
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David V. Wick, Ty Martinez, Michael V. Wood, James M. Wilkes, Mark T. Gruneisen, Vladimir A. Berenberg, Michael V. Vasil’ev, Arkady P. Onokhov & Leonid A. Beresnev. (1999) Deformed-helix ferroelectric liquid-crystal spatial light modulator that demonstrates high diffraction efficiency and 370-line pairs/mm resolution. Applied Optics 38:17, pages 3798.
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Stanislaw Bartkiewicz, Andrzej Miniewicz, François Kajzar & Malgorzata Zagórska. (1998) Observation of high gain in a liquid-crystal panel with photoconducting polymeric layers. Applied Optics 37:29, pages 6871.
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Gil B. Cohen, Roman Pogreb, Klara Vinokur & Dan Davidov. (1997) Spatial light modulator based on a deformed-helix ferroelectric liquid crystal and a thin a-Si:H amorphous photoconductor. Applied Optics 36:2, pages 455.
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Xin Lin, Junji Ohtsubo & Tamiki Takemori. (1996) Real-time optical image subtraction and edge enhancement using ferroelectric liquid-crystal devices based on speckle modulation. Applied Optics 35:17, pages 3148.
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Pierre R. Barbier. (1995) Diffraction Properties of Ferroelectric Liquid Crystal Optically-Addressed Spatial Light Modulators. Diffraction Properties of Ferroelectric Liquid Crystal Optically-Addressed Spatial Light Modulators.
W.Thomas Cathey & R.C. Mercure. (1993) Mastering the challenge of optoelectronic computing. Proceedings of the IEEE 81:1, pages 95-110.
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C. C. Mao, K. M. Johnson, R. Turner, D. Jared & D. Doroski. (1992) Applications of binary and analog hydrogenated amorphous silicon/ferroelectric liquid-crystal optically addressed spatial light modulators. Applied Optics 31:20, pages 3908.
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