Rotational viscosity enhancement in nematic liquid crystal near a charged surface |
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| Authors: | A.V. Zakharov R.Y. Dong |
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| Affiliation: | (1) Department of Physics and Astronomy, Brandon University, Brandon, Manitoba R7A 6A9, Canada, CA |
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| Abstract: | The effective rotational viscosity coefficient and flow alignment angle are investigated for polar liquid crystals (LCs), such as 4-n-octyloxy- 4′-cyanobiphenyl (8OCB), in the vicinity of a charged bounding surface. is calculated using the Ericksen-Leslie theory, both for stationary and nonstationary regimes. Calculations of , both for homeotropic and planar alignment of 8OCB molecules, at a charged indium tin oxide(ITO)-coated glass plate show an additional contribution to up to 7.8%. The nonequilibrium flow alignment angle (τ) is also calculated for the surface region bounded by 0.1≤y≤3.0 μm. Transition from a tumbling situation to a flow aligning regime can occur near the charged boundary surface. Received 22 November 2001 and Received in final form 31 January 2002 |
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| Keywords: | PACS. 61.30.Cz Molecular and microscopic models and theories of liquid crystal structure – 66.20.+d Viscosity of liquids diffusive momentum transport |
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