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Active and tunable nanophotonic metamaterials
2022
Nanophotonics
Metamaterials enable subwavelength tailoring of light–matter interactions, driving fundamental discoveries which fuel novel applications in areas ranging from compressed sensing to quantum engineering. Importantly, the metallic and dielectric resonators from which static metamaterials are comprised present an open architecture amenable to materials integration. Thus, incorporating responsive materials such as semiconductors, liquid crystals, phase-change materials, or quantum materials (e.g.,
doi:10.1515/nanoph-2022-0188
fatcat:yfgog3g545c5thrwvpqzncazia