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Paper detail

Chromatic control in coextruded layered polymer microlenses

We describe the formation, characterization and theoretical understanding of microlenses comprised of alternating polystyrene and polymethylmethacrylate layers produced by multilayer coextrusion. These lenses are fabricated by photolithography, using a grayscale mask followed by plasma etching, so that the refractive index alternation of the bilayer stack appears across the radius of the microlens. The alternating quarter-wave thick layers form a one-dimensional photonic crystal whose dispersion augments the material dispersion, allowing one to sculpt the chromatic dispersion of the lens by adjusting the layered structure. Using Huygen's principle, we model our experimental measurements of the focal length of these lenses across the reflection band of the multilayer polymer film from which the microlens is fashioned. For a 56 micron diameter multilayered lens of focal length 300 microns, we measured a nearly 25 percent variation in the focal length across a shallow, 50 nm-wide reflection band.

preprint2014arXivOpen access
Michael CrescimannoTom N. OderJames H. AndrewsChuanhong ZhouJoshua B. PetrusCory MerloCameron BagheriConnor HetzelJames TancabelKenneth D. SingerEric Baer
physics.optics
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Authors

Michael CrescimannoTom N. OderJames H. AndrewsChuanhong ZhouJoshua B. PetrusCory MerloCameron BagheriConnor HetzelJames TancabelKenneth D. SingerEric Baer

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