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Two-Color Spatially Resolved Tuning of Polymer-Coated Metasurfaces

Sarah L. Walden, Purushottam Poudel, Chengjun Zou, Katsuya Tanaka, Pallabi Paul, Adriana Szeghalmi, Thomas Siefke, Thomas Pertsch, Felix H. Schacher, Isabelle Staude

2024ACS Nano11 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide For the realization of truly reconfigurable metasurface technologies, dynamic spatial tuning of the metasurface resonance is required. Here we report the use of organic photoswitches as a means for the light-induced spatial tuning of metasurface resonances. Coating of a dielectric metasurface, hosting high-quality-factor resonances, with a spiropyran (SPA)-containing polymer enabled dynamic resonance tuning up to 4 times the resonance full-width at half-maximum with arbitrary spatial precision. A major benefit of employing photoswitches is the broad toolbox of chromophores available and the unique optical properties of each. In particular, SPA and azobenzene (AZO) photoswitches can both be switched with UV light but exhibit opposite refractive index changes. When applied to the metasurface, SPA induced a red shift in the metasurface resonance with a figure of merit of 97 RIU –1, while AZO caused a blue shift in the resonance with an even greater sensitivity of 100 RIU –1 . Critically, SPA and AZO can be individually recovered with red and blue light, respectively. To exploit this advantage, we coated a dielectric metasurface with spatially offset SPA- and AZO-containing polymers to demonstrate wavelength-dependent, spatially resolved control over the metasurface resonance tuning.

Topics & Concepts

Materials scienceResonance (particle physics)OptoelectronicsFigure of meritDielectricRefractive indexOpticsAzobenzeneWavelengthPolymerPhysicsParticle physicsComposite materialMetamaterials and Metasurfaces ApplicationsPolydiacetylene-based materials and applicationsAdvanced Antenna and Metasurface Technologies