Abstract
Films of a chiral liquid crystalline side chain polymer with azobenzene chromophores are shown to be a novel medium for UV image recording. The principle includes a primary process of recording a UV image (e.g. of a mask) by unpolarized UV light excitation of a considerable amount of extraordinary long living cis-isomers of the azo-chromophores. After that the image is `hidden' because it is not seen under a polarising microscope equipped with a red filter. At the second stage, the image is developed by a linearly polarized beam of visible (blue or green) light that converts cis-isomers back into their trans-counterparts. The image appears in the form of the spatial modulation of the optical anisotropy which is measured at each stage in situ by an ellipsometry technique. The development of the hidden images has been done both with a uniform illumination and a holographic technique using a grating formed by interfering beams of visible Ar-laser light. Recorded images are erased by the second, this time uniform, UV irradiation of the film and the process may be repeated many times on the same spot.
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