论文信息 - Surface induced alignment transition in a nematic layer with symmetrical boundary conditions

Surface induced alignment transition in a nematic layer with symmetrical boundary conditions

Abstract The inner surfaces of a cell of conventional type were covered with an SiO, aligning layer evaporated at an angle α = 60° and subsequently treated with lecithin in order to achieve symmetrical boundary conditions. The alignment of a nematic liquid crystal layer with negative dielectric anisotropy (Δe < 0) was found to be homeotropic below a critical temperature Tc, (low temperature range). Above that particular temperature the homeotropic alignment abruptly transforms into a planar one, which remains with increasing temperature up to the clearing point TNI (high temperature range). The alignment transition was found to be reversible, and is attributed to a packing change of the lecithin layer with the temperature. A simple model based on the different temperature dependence of the anchoring strengths W H, (T) and W P, (T), characterizing the homeotropic and planar alignment respectively, is proposed to explain the surface induced alignment transition.

[1] M. Monkade,et al. Order electricity and oblique nematic orientation on rough solid surfaces , 1988 .

[2] Gatti,et al. Almost critical behavior of the anchoring energy at the interface between a nematic liquid crystal and a SiO substrate. , 1985, Physical review letters.

[3] Isao Fujisawa,et al. Type Conversion of InSb from p to n by Ion Bombardment and Laser Irradiation , 1980 .

[4] H. Kamei,et al. Role of surface adsorption in the surface‐induced alignment of nematic liquid crystals on evaporated SiO films , 1984 .

[5] A. Griffin,et al. Behavior of the Anchoring Strength Coefficient Near a Structural Transition at a Nematic Substrate Interface , 1990 .

[6] H. Yokoyama,et al. Temperature dependence of the anchoring strength at a nematic liquid crystal‐evaporated SiO interface , 1987 .

[7] C. Rosenblatt. Temperature dependence of the anchoring strength coefficient at a nematic liquid crystal-wall interface , 1984 .

[8] H. Stegemeyer,et al. Contact Angles and Alignment of Liquid Crystals on Lecithin Monolayers , 1978 .

[9] Frederic J. Kahn,et al. Orientation of liquid crystals by surface coupling agents , 1973 .

[10] L. Creagh,et al. Mechanism of Surface Alignment in Nematic Liquid Crystals , 1973 .

[11] J. Patel,et al. Chemically induced high‐tilt surfaces for liquid crystals , 1987 .

[12] H. Stegemeyer,et al. Alignment of Liquid Crystals by Amphiphilic Monolayers , 1978 .