Litcius/Paper detail

Reconfiguring Magnetic Infrared Resonances with the Plasmonic Phase-Change Material In<sub>3</sub>SbTe<sub>2</sub>

Andreas Heßler, Lukas Conrads, Konstantin G. Wirth, Matthias Wuttig, Thomas Taubner

2022ACS Photonics32 citationsDOI

Abstract

For miniaturized active nanophotonic components like adjustable lenses, resonance tuning of nanoantennas is essential. Phase-change materials (PCMs) have been established as prime candidates for nonvolatile resonance tuning based on a change in the refractive index. Currently, a novel material class of switchable infrared plasmonic PCMs, like In3SbTe2 (IST), is emerging. Because IST can be locally optically switched between dielectric (amorphous) and metallic (crystalline) states, it becomes possible to directly change the geometry and shape of nanoantennas to tune their infrared resonances. Here, crystalline IST split-ring resonators (SRRs) are directly optically written and reconfigured to continuously tune their magnetic dipole resonance wavelengths from 10.6 to 8.2 μm without changing their electric dipole (ED) resonances. The SRRs are further modified into crescents and J-antennas, displaying electric quadrupole and rotated ED modes, respectively. Our concepts may be well suited for rapid prototyping, speeding up workflows for engineering ultrathin, tunable, plasmonic devices for infrared nanophotonics.

Topics & Concepts

PlasmonNanophotonicsMaterials scienceMetamaterialOptoelectronicsInfraredDielectricResonance (particle physics)DipoleMagnetic dipoleRefractive indexSplit-ring resonatorOpticsPhysicsParticle physicsQuantum mechanicsMetamaterials and Metasurfaces ApplicationsPhase-change materials and chalcogenidesPlasmonic and Surface Plasmon Research