Infrared Optical Switch Using a Movable Liquid Droplet

Author： Xu Miao Wang Xiahui Jin Boya Ren Hongwen

Publisher： MDPI

E-ISSN： 2072-666x|6|2|186-195

ISSN： 2072-666x

Source： Micromachines, Vol.6, Iss.2, 2015-01, pp. : 186-195

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Abstract

We report an infrared (IR) optical switch using a wedge-like cell. A glycerol droplet is placed in the cell and its surrounding is filled with silicone oil. The droplet has minimal surface area to volume (SA/V) ratio in the relaxing state. By applying a voltage, the generated dielectric force pulls the droplet to move toward the region with thinner cell gap. As a result, the droplet is deformed by the substrates, causing the SA/V of the droplet to increase. When the voltage is removed, the droplet can return to its original place in order to minimize the surface energy. Owing to the absorption of glycerol at 1.55 μm, the shifted droplet can be used to attenuate an IR beam with the advantage of polarization independent. Fluidic devices based on this operation mechanism have potential applications in optical fiber switches, IR shutter, and variable optical attenuations.