Thermally responsive polymer-dispersed liquid crystal diffusers fabricated using laser speckle pattern irradiation

Akifumi Ogiwara; Hiroshi Kakiuchida

doi:10.1364/AO.443216

Applied Optics
Vol. 60,
Issue 32,
pp. 10246-10251
(2021)
•https://doi.org/10.1364/AO.443216

Thermally responsive polymer-dispersed liquid crystal diffusers fabricated using laser speckle pattern irradiation

Akifumi Ogiwara and Hiroshi Kakiuchida

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Akifumi Ogiwara and Hiroshi Kakiuchida, "Thermally responsive polymer-dispersed liquid crystal diffusers fabricated using laser speckle pattern irradiation," Appl. Opt. 60, 10246-10251 (2021)

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Abstract

This study examined the thermal response of polymer-dispersed liquid crystal (PDLC) diffusers, patterned using a two-lens imaging system. Optical modulation was achieved by modifying the PDLC transmittance using temperature-induced changes to liquid crystal (LC) orientation. PDLCs with controllable scattering properties were obtained by irradiating LC-polymer composites with laser speckle patterns. The variation of the scattering characteristics of the PDLCs with temperature, average speckle size, and LC orientation order was analyzed to determine the most suitable parameters for a diffuser for smart window solar-ray control applications. The findings of these experiments demonstrate that using speckle patterns, a one-time laser exposure process, can provide a simple fabrication method of novel optical devices.

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Abstract

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Applied Optics