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Photonic metacrystals are a class of photonic crystals that leverage deep subwavelength-engineering of the unit cell to synergistically combine metamaterials concepts with on-chip guided-wave photonics. This talk will present design rules for photonic metacrystals, highlighting the additional degrees of freedom in the design space that enable added control of light-matter interactions. Applications that can realize enhanced performance metrics using photonic metacrystals will be discussed, including on-chip modulators, optical biosensors, and optical nanotweezers. Perspectives on scalable foundry fabrication of photonic metacrystals will also be provided.
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Sharon M. Weiss, "Photonic metacrystals: design rules and applications," Proc. SPIE PC13110, Active Photonic Platforms (APP) 2024, PC1311011 (3 October 2024); https://doi.org/10.1117/12.3028469