Abstract
We present an experimental study on the local liquid crystalline alignment in a dye-doped nematic cell with an optically micropatterned command surface. The experiments have been carried out on cells filled with pentyl-cyanobiphenyl (5CB) doped with azo dyes with a wall coated with polyvinylcinnamate-fluorinated (PVCN-F) acting as command surface. The microstructures have been produced trough an anisotropic light-induced adsorption of the azo dyes on the command surface and the subsequent reorientation of the nematic axis at the interface and its propagation inside the cell has been characterized by confocal polarized micro Raman spectroscopy. Both lateral and axial profiles of nematic director and order parameter have been measured providing a 3D visualization of the microstructures. Particular attention has been given to the solid-liquid crystal interactions and their influences on the bulk liquid crystalline order.
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