Holographic gratings and holographic image storage via photochemical phasetransitions of polymer azobenzene liquid-crystal films

Phase-type gratings formed by photochemical phase transitions of a polymer azobenzene liquid crystal have been characterized. The sensitivity of the m aterial was improved by a factor of 23 in the liquid-crystalline phase owin g to effective induction of the photochemical phase transition in the brigh t fringes of the interference pattern. A mechanism for grating formation in films based on dynamics both in grating formation and for the photochemica l phase transition has been proposed. Observation of the grating structure with a polarizing optical microscope confirmed that the isotropic phase ind uced photochemically was arranged at well defined separations. The polymer azobenzene liquid crystal showed a storage capability of > 100 Mbits cm(-2) which corresponds to a resolution of < 1 mu m and a spatial frequency of > 1000 lines mm(-1). We also attempted holographic image storage using a pho tomask as an object.