Abstract
Abstract Factors are discussed that determine non-ideality of the phase-shift compensation process in the bire-fringent cells based on electrooptic PLZT 9/65/35 ceramics. The dependence of light-modulation characteristics of PLZT-based optical systems on the degree of compensation of induced anisotropy is studied. It is shown that the contrast ratio of such systems can be as high as 150-330 for control voltages of 82-95 V (for interelectrode gap of 100 μm).
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