Distinguishing the parallel and vertical orientations and optic axis characteristics determination of azobenzene mesogen by conoscopic polarized microscopy

Summary Orientational behaviours under the action of linearly polarized light and circularly polarized light of a side‐chain azobenzene containing polymer were studied by conoscopic polarized microscopy. The results suggest that the linearly polarized light (473 nm, 20 mW cm −2 ) results in an in‐plane orientation of the azobenzene groups. The irradiation with circularly polarized light (473 nm, 20 mW cm −2 ) leads to a tilt orientation (out‐of‐plane) of the azobenzene groups with the long axis of mesogens aligned along the propagation direction of the actinic light. Characteristic features of the in‐plane and out‐of‐plane orientated films were obtained from their interference figures. The in‐plane orientated film shows an interference cross consisting of a broad fuzzy bar, and the cross‐centre lies in the centre of view field. In‐plane orientated film also yields a flash figure upon a less than 10° rotation of the sample under polarized microscopy. The interference figures yielded from the out‐of‐plane orientated films consist of narrow bar cross. The locations of those interference figures depend on the oblique angle of the irradiation light. A method for distinguishing the in‐plane orientation of the mesogens from the vertically out‐of‐plane orientation is demonstrated, which is based on comparing the bar width of their interference figures, and by whether they can produce a flash figure upon a small angle rotation of the film. The liquid crystalline film is identified as positive and uniaxial anisotropy after annealing of the perpendicularly irradiated film.