Abstract
We propose and demonstrate, for the first time to our knowledge, a microlens array of the gradient-index type using a novel liquid-crystalline material that possesses the property of photopolymerization by UV irradiation. Optical and electrical properties of the UV-curable liquid crystal are investigated to optimize UV curing conditions. The microlens array is prepared by use of an UV-curable liquid crystal, and gradient-index profiles are monitored during photopolymerization. As a result, relatively good focusing and imaging properties can be obtained even after photopolymerization. This technique affords us a very controllable way to fabricate the micro-optic components.
© 1998 Optical Society of America
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