Informatie over de ondertitel Shutter (2004) Shutter (2004) - ondertitel. A young photographer and his girlfriend discover mysterious shadows in their photographs after a tragic accident. They soon learn that you can not escape your past. Shutter 2004 720p WEB-DL SeeingMole.
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AbstractIn this paper, a direct switching between a transparent (or reflecting) planar (P) state to an opaque (or transparent) focal conic (FC) state and vice-versa of a polymer free bistable cholesteric light shutter without any homogeneous polyimide (PI) layer, is demonstrated based on the sign inversion of dielectric anisotropy of dual frequency liquid crystal (DFLC). The direct switching was achieved by applying square wave field at low (1 kHz) and high (50 kHz) frequency. As a result, the DFLC light shutter sustains bistable bright and dark states in electric field off state and exhibits excellent electro-optic performance. The direct switching from the FC to P states not only supports more uniform P state but also significantly reduces switching voltage by eliminating the high field homeotropic (H) state required for the switching in the conventional polymer stabilized cholesteric texture (PSCT) light shutter. The driving voltage applied to make a transition from the P to FC one is relatively low (3V p-p/µm). Further, switching time from FC to P state was reduced drastically with homeotropic PI layer.
Results show that dual frequency cholesteric liquid crystal (DFCLC) light shutter holds a great promise for use in energy efficient display devices and switchable windows.©2012 Optical Society of America OSA Recommended Articles. References. View by:. Article Order. Year.
Author. Publication. H. Ren and S.-T.
Wu, “Reflective reversed-mode polymer stabilized cholesteric texture light switches,” J. Phys. 92(2), 797–800 (2002).
D.-K. Chien, and J. Doane, “Cholesteric liquid crystal/polymer dispersion for haze-free light shutters,” Appl. Lett. 60(25), 3102–3104 (1992). M. Yang, “Dual frequency cholesteric light shutters,” Appl.
Lett. 70(6), 720–722 (1997). M. Nouvet, and N. Dessaud, “Polymer-stabilized cholesteric liquid crystals as switchable photonic broad bandgaps,” Eur.
E Soft Matter 15(4), 413–419 (2004). L. Natarajan, J.
Tondiglia, R. Sutherland, S.
Bunning, “Tuning of a cholesteric filter having a negative dielectric anisotropy,” Proc. SPIE 6654, 66540A (2007). K. Mason, and K.
Rochester, “Design issues for tunable filters for optical telecommunications,” Proc. SPIE 4679, 213–224 (2002). R. Sutherland, V.
Tondiglia, L. Natarajan, T. Bunning, and W. Adams, “Electrically switchable volume gratings in polymer-dispersed liquid crystals,” Appl. Lett. 64(9), 1074–1076 (1994).
T. Natarajan, V. Tondiglia, and R. Sutherland, “Holographic polymer-dispersed liquid crystals (H-PDLCs),” Annu. Sci. 30(1), 83–115 (2000). A.
Klosterman, V. Tondiglia, L.
Natarajan, R. Sutherland, O. Ikeda, and T.
Bunning, “Optically switchable bragg reflectors,” Adv. Mater. 16(16), 1453–1456 (2004). Z. Ventouris, and D. Voloschenko, “Electrically tunable color for full-color reflective displays,” Proc. SPIE 4658, 7–13 (2002).
Y. Mochizukia, and K. Yoshikawaa, “Phase transition-type liquid-crystal projection display,” Displays 10(2), 93–99 (1989). D.-K. Yaniv, and J. Glasser, “Cholesteric reflective display: drive scheme and contrast,” Appl.
Lett. 64(15), 1905–1907 (1994). D.-K. Chien, and J. Doane, “Control of reflectivity and bistability in displays using cholesteric liquid crystals,” J. Phys. 76(2), 1331–1333 (1994).
B. Davis, and D. John, “Optical properties of bistable cholesteric reflective displays,” SID Int. Papers 27, 39–42 (1996). J. Sergan, and P.
Bos, “Fast frame rate bistable cholesteric texture reflective displays,” SID Int. Papers 29(1), 806–809 (1998). A. Armbruster, F. Nicholson, N. Doane, “Super high brightness reflective cholesteric display,” SID Int. Papers 32(1), 460–463 (2001).
D.-K. Yang, “Flexible bistable cholesteric reflective displays,” J.
Technol. 2(1), 32–37 (2006). W.
Lu, and D.-K. Yang, “Bragg reflection from cholesteric liquid crystals,” Phys. Plasmas Fluids Relat. Topics 51(2), 1191–1198 (1995). S. Shandrasekhar, Liquid Crystals (Cambridge University Press, 1992). P.
De Gennes and J. Prost, The Physics of Liquid Crystals (Oxford University Press, 1993). D.-K.
Chien, and Y. Fung, Liquid Crystals in Complex Geometries, G. Crawford and S. (Taylor & Francis, 1996), Chap.
Zumer, and J. Doane, “Polymer networks formed in liquid crystals,” Liq. Cryst. 19(6), 797–801 (1995).
S.-T. Yang, Reflective Liquid Crystal Displays (John Wiley & Sons, Ltd. 98–99 (2001). T. Yamaguchi, H. Yamaguchi, and Y. Kawata, “Driving voltage of reflective cholesteric liquid crystal displays,” J.
![Download Download](/uploads/1/2/5/4/125489611/294438171.jpg)
Phys. 85(11), 7511–7516 (1999). R. Liu, and D.-K. Yang, “Smart bistable polymer stabilized cholesteric texture light shutter,” Appl. Express 2, 112401 (2009). J.
Shi, and D.-K. Yang, “Bistable polymer stabilized cholesteric texture light shutter,” Appl. Express 3(2), 021702 (2010). Y. Ke, “Effect of chiral dopant and monomer concentrations on the electro-optical response of a polymer stabilized cholesteric texture cell,” Appl. B 86(1), 123–127 (2006).
M. Yang, “Electrooptical properties of dual-frequency cholesteric liquid crystal reflective display,” Jpn. Phys. 38(Part 1, No. 12A), 6827–6830 (1999). P.
De Gennes, “Calcul de la distorsion d'une structure cholesterique par un champ magnetique,” Solid State Commun. 6(3), 163–165 (1968). X. Ge, and S.-T. Wu, “Polar anchoring energy measurement of vertically aligned liquid-crystal cells,” J. Phys. 98(1), 013516 (2005).
H. Yokoyama and H. Van Sprang, “A novel method for determining the anchoring energy function at a nematic liquid crystal‐wall interface from director distortions at high fields,” J.
Phys. 57(10), 4520–4526 (1985). S. Lagerwall, Ferroelectric and Antiferroelectric Liquid Crystals (Wiley -VCH, 1999), Chap. Yaniv, and J.
Glasser, “Cholesteric reflective display: drive scheme and contrast,” Appl. Lett. 64(15), 1905–1907 (1994).D.-K. Chien, and J.
Doane, “Control of reflectivity and bistability in displays using cholesteric liquid crystals,” J. Phys. 76(2), 1331–1333 (1994).R. Sutherland, V. Tondiglia, L. Natarajan, T.
Bunning, and W. Adams, “Electrically switchable volume gratings in polymer-dispersed liquid crystals,” Appl. Lett. 64(9), 1074–1076 (1994).1992 (1). Natarajan, J. Tondiglia, R. Sutherland, S. Bunning, “Tuning of a cholesteric filter having a negative dielectric anisotropy,” Proc.
SPIE 6654, 66540A (2007).T. Natarajan, V. Tondiglia, and R. Sutherland, “Holographic polymer-dispersed liquid crystals (H-PDLCs),” Annu. Sci. 30(1), 83–115 (2000).R.
Sutherland, V. Tondiglia, L. Natarajan, T. Bunning, and W. Adams, “Electrically switchable volume gratings in polymer-dispersed liquid crystals,” Appl.
Lett. 64(9), 1074–1076 (1994).Chen, C.-H. Zumer, and J. Doane, “Polymer networks formed in liquid crystals,” Liq. Cryst. 19(6), 797–801 (1995).D.-K. Chien, and J. Doane, “Control of reflectivity and bistability in displays using cholesteric liquid crystals,” J.
Phys. 76(2), 1331–1333 (1994).D.-K. Chien, and J. Doane, “Cholesteric liquid crystal/polymer dispersion for haze-free light shutters,” Appl.
Lett. 60(25), 3102–3104 (1992).Chih, Y. Armbruster, F.
Nicholson, N. Doane, “Super high brightness reflective cholesteric display,” SID Int. Papers 32(1), 460–463 (2001).B.
Davis, and D. John, “Optical properties of bistable cholesteric reflective displays,” SID Int. Papers 27, 39–42 (1996).Y. Zumer, and J. Doane, “Polymer networks formed in liquid crystals,” Liq. Cryst. 19(6), 797–801 (1995).D.-K. Yaniv, and J.
Glasser, “Cholesteric reflective display: drive scheme and contrast,” Appl. Lett. 64(15), 1905–1907 (1994).D.-K.
Chien, and J. Doane, “Control of reflectivity and bistability in displays using cholesteric liquid crystals,” J. Phys. 76(2), 1331–1333 (1994).D.-K. Chien, and J. Doane, “Cholesteric liquid crystal/polymer dispersion for haze-free light shutters,” Appl. Lett. 60(25), 3102–3104 (1992).Doroski, D. Natarajan, J.
Tondiglia, R. Sutherland, S. Bunning, “Tuning of a cholesteric filter having a negative dielectric anisotropy,” Proc. SPIE 6654, 66540A (2007).T. Natarajan, V. Tondiglia, and R. Sutherland, “Holographic polymer-dispersed liquid crystals (H-PDLCs),” Annu.
Sci. 30(1), 83–115 (2000).R. Sutherland, V. Tondiglia, L.
Natarajan, T. Bunning, and W. Adams, “Electrically switchable volume gratings in polymer-dispersed liquid crystals,” Appl. Lett. 64(9), 1074–1076 (1994).Nicholson, F. Natarajan, J. Tondiglia, R. Sutherland, S.
Bunning, “Tuning of a cholesteric filter having a negative dielectric anisotropy,” Proc. SPIE 6654, 66540A (2007).T. Natarajan, V. Tondiglia, and R. Sutherland, “Holographic polymer-dispersed liquid crystals (H-PDLCs),” Annu. Sci. 30(1), 83–115 (2000).R.
Sutherland, V. Tondiglia, L. Natarajan, T. Bunning, and W. Adams, “Electrically switchable volume gratings in polymer-dispersed liquid crystals,” Appl.
Lett. 64(9), 1074–1076 (1994).Taheri, B. Natarajan, J.
Tondiglia, R. Sutherland, S. Bunning, “Tuning of a cholesteric filter having a negative dielectric anisotropy,” Proc. SPIE 6654, 66540A (2007).T. Natarajan, V. Tondiglia, and R.
Sutherland, “Holographic polymer-dispersed liquid crystals (H-PDLCs),” Annu. Sci. 30(1), 83–115 (2000).R.
Sutherland, V. Tondiglia, L. Natarajan, T. Bunning, and W.
Adams, “Electrically switchable volume gratings in polymer-dispersed liquid crystals,” Appl. Lett. 64(9), 1074–1076 (1994).Tsai, M.-S. Shi, and D.-K. Yang, “Bistable polymer stabilized cholesteric texture light shutter,” Appl. Express 3(2), 021702 (2010).R. Liu, and D.-K. Yang, “Smart bistable polymer stabilized cholesteric texture light shutter,” Appl.
Express 2, 112401 (2009).D.-K. Yang, “Flexible bistable cholesteric reflective displays,” J. Technol. 2(1), 32–37 (2006).M.
Yang, “Electrooptical properties of dual-frequency cholesteric liquid crystal reflective display,” Jpn. Phys. 38(Part 1, No. 12A), 6827–6830 (1999).M. Yang, “Dual frequency cholesteric light shutters,” Appl. Lett. 70(6), 720–722 (1997).W. Lu, and D.-K.
Yang, “Bragg reflection from cholesteric liquid crystals,” Phys. Plasmas Fluids Relat. Topics 51(2), 1191–1198 (1995).Y. Zumer, and J.
Doane, “Polymer networks formed in liquid crystals,” Liq. Cryst. 19(6), 797–801 (1995).D.-K.
Chien, and J. Doane, “Control of reflectivity and bistability in displays using cholesteric liquid crystals,” J. Phys. 76(2), 1331–1333 (1994).D.-K. Yaniv, and J. Glasser, “Cholesteric reflective display: drive scheme and contrast,” Appl. Lett. 64(15), 1905–1907 (1994).D.-K. Chien, and J.
Doane, “Cholesteric liquid crystal/polymer dispersion for haze-free light shutters,” Appl. Lett. 60(25), 3102–3104 (1992).Yaniv, Z. Sutherland, V. Tondiglia, L. Natarajan, T. Bunning, and W.
Adams, “Electrically switchable volume gratings in polymer-dispersed liquid crystals,” Appl. Lett. 64(9), 1074–1076 (1994).D.-K. Chien, and J. Doane, “Cholesteric liquid crystal/polymer dispersion for haze-free light shutters,” Appl. Lett. 60(25), 3102–3104 (1992).M. Yang, “Dual frequency cholesteric light shutters,” Appl.
Lett. 70(6), 720–722 (1997).D.-K. Yaniv, and J. Glasser, “Cholesteric reflective display: drive scheme and contrast,” Appl. Lett. 64(15), 1905–1907 (1994).Displays (1).
Ren and S.-T. Wu, “Reflective reversed-mode polymer stabilized cholesteric texture light switches,” J. Phys. 92(2), 797–800 (2002).D.-K. Chien, and J.
Doane, “Control of reflectivity and bistability in displays using cholesteric liquid crystals,” J. Phys. 76(2), 1331–1333 (1994).X. Ge, and S.-T. Wu, “Polar anchoring energy measurement of vertically aligned liquid-crystal cells,” J. Phys. 98(1), 013516 (2005).H. Yokoyama and H.
Van Sprang, “A novel method for determining the anchoring energy function at a nematic liquid crystal‐wall interface from director distortions at high fields,” J. Phys. 57(10), 4520–4526 (1985).T.
Yamaguchi, H. Yamaguchi, and Y.
Kawata, “Driving voltage of reflective cholesteric liquid crystal displays,” J. Phys. 85(11), 7511–7516 (1999).J. Natarajan, J. Tondiglia, R.
Sutherland, S. Bunning, “Tuning of a cholesteric filter having a negative dielectric anisotropy,” Proc. SPIE 6654, 66540A (2007).K. Mason, and K. Rochester, “Design issues for tunable filters for optical telecommunications,” Proc.
SPIE 4679, 213–224 (2002).Z. Ventouris, and D. Voloschenko, “Electrically tunable color for full-color reflective displays,” Proc. SPIE 4658, 7–13 (2002).SID Int.
Davis, and D. John, “Optical properties of bistable cholesteric reflective displays,” SID Int. Papers 27, 39–42 (1996).J.
Sergan, and P. Bos, “Fast frame rate bistable cholesteric texture reflective displays,” SID Int. Papers 29(1), 806–809 (1998).A.
![2004 2004](http://s1.dmcdn.net/AdiHt/1280x720-reZ.jpg)
Armbruster, F. Nicholson, N. Doane, “Super high brightness reflective cholesteric display,” SID Int. Papers 32(1), 460–463 (2001).Solid State Commun. Lagerwall, Ferroelectric and Antiferroelectric Liquid Crystals (Wiley -VCH, 1999), Chap. Yang, Reflective Liquid Crystal Displays (John Wiley & Sons, Ltd. 98–99 (2001).S.
Shandrasekhar, Liquid Crystals (Cambridge University Press, 1992).P. De Gennes and J. Prost, The Physics of Liquid Crystals (Oxford University Press, 1993).D.-K. Chien, and Y. Fung, Liquid Crystals in Complex Geometries, G.
Crawford and S. (Taylor & Francis, 1996), Chap.