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Nanostructured In <sub>3</sub> SbTe <sub>2</sub> antennas enable switching from sharp dielectric to broad plasmonic resonances

Andreas Heßler, Sophia Wahl, Philip Trøst Kristensen, Matthias Wuttig, Kurt Busch, Thomas Taubner

2022Nanophotonics32 citationsDOIOpen Access PDF

Abstract

Abstract Phase‐change materials (PCMs) allow for non‐volatile resonance tuning of nanophotonic components. Upon switching, they offer a large dielectric contrast between their amorphous and crystalline phases. The recently introduced “plasmonic PCM” In 3 SbTe 2 (IST) additionally features in its crystalline phase a sign change of its permittivity over a broad infrared spectral range. While optical resonance switching in unpatterned IST thin films has been investigated before, nanostructured IST antennas have not been studied, yet. Here, we present numerical and experimental investigations of nanostructured IST rod and disk antennas. By crystallizing the IST with microsecond laser pulses, we switched individual antennas from narrow dielectric to broad plasmonic resonances. For the rod antennas, we demonstrated a resonance shift of up to 1.2 µm (twice the resonance width), allowing on/off switching of plasmonic resonances with a contrast ratio of 2.7. With the disk antennas, we realized an increase of the resonance width by more than 800% from 0.24 µm to 1.98 µm while keeping the resonance wavelength constant. Further, we demonstrated intermediate switching states by tuning the crystallization depth within the resonators. Our work empowers future design concepts for nanophotonic applications like active spectral filters, tunable absorbers, and switchable flat optics.

Topics & Concepts

PlasmonMaterials scienceDielectricNanomaterialsOptoelectronicsNanotechnologyNanophotonicsEngineering physicsPhysicsPhotonic and Optical DevicesMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon Research
Nanostructured In <sub>3</sub> SbTe <sub>2</sub> antennas enable switching from sharp dielectric to broad plasmonic resonances | Litcius