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Advanced processes towards the design and fabrication of nanophotonic structures have yielded numerous material concepts for customizable light-matter interactions. Tailored sub-wavelength structures of select materials, such as plasmonic metasurfaces and polymeric bragg reflectors, enable strong electromagnetic (EM) interactions that can be tuned to select frequencies across the spectrum. While such systems can be independently tailored towards precise colorimetric outputs in both static and dynamic configurations, new opportunities emerge in hybridized forms that enable more precise spectral control. In this work the processing routes and spectral tunability of metasurface-bragg reflectors will be discussed. Of emphasis is the scalable nature of the fabrication approaches and opportunities to control the hybridized interactions.
Mark Griep
"Processing routes for tunable structural color", Proc. SPIE PC12741, Advanced Materials, Biomaterials, and Manufacturing Technologies for Security and Defence, PC127410E (17 October 2023); https://doi.org/10.1117/12.2682211
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Mark Griep, "Processing routes for tunable structural color," Proc. SPIE PC12741, Advanced Materials, Biomaterials, and Manufacturing Technologies for Security and Defence, PC127410E (17 October 2023); https://doi.org/10.1117/12.2682211