论文信息 - Formation of a grating of submicron nematic layers by photopolymerization of nematic-containing mixtures

Formation of a grating of submicron nematic layers by photopolymerization of nematic-containing mixtures

A submicron, spatially periodic, structure consisting of a sequence of oriented layers of a nematic liquid crystal (NLC), separated by isotropic polymeric walls, was obtained experimentally. This was accomplished by polymerization induced by the interference pattern of UV laser radiation in a NLC-containing prepolymer mixture. It was established that such a structure occurs when phase separation and nematic ordering are prevented during the polymerization process. These structures are the diffraction elements, whose efficiency is much greater than that of a standard grating of polymer-dispersed liquid crystals [1–4] which is obtained in the same initial mixture. Specifically, a diffraction efficiency of 60–70% was obtained for structures with the period Δ = 0.2 μm, even in mixtures where a grating with Δ < 6 μm cannot be obtained at all by the standard technique.

Cesare Umeton | Roberto Caputo | A. V. Sukhov | R. F. Ushakov

[1] Vincent P. Tondiglia,et al. Electrically switchable volume gratings in polymer‐dispersed liquid crystals , 1994 .

[2] R. Sutherland,et al. Volume holographic image storage and electro-optical readout in a polymer-dispersed liquid-crystal film. , 1995, Optics letters.

[3] R. Sutherland,et al. ELECTRO-OPTICAL SWITCHING CHARACTERISTICS OF VOLUME HOLOGRAMS IN POLYMER DISPERSED LIQUID CRYSTALS , 1996 .

[4] Lalgudi V. Natarajan,et al. Bragg gratings in an acrylate polymer consisting of periodic polymer-dispersed liquid-crystal planes , 1993 .