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Meta-Atoms with Toroidal Topology for Strongly Resonant Responses.

Odysseas TsilipakosZacharias ViskadourakisAnna C TasolamprouDimitrios C ZografopoulosMaria KafesakiGeorgios KenanakisEleftherios N Economou
Published in: Micromachines (2023)
A conductive meta-atom of toroidal topology is studied both theoretically and experimentally, demonstrating a sharp and highly controllable resonant response. Simulations are performed both for a free-space periodic metasurface and a pair of meta-atoms inserted within a rectangular metallic waveguide. A quasi-dark state with controllable radiative coupling is supported, allowing to tune the linewidth (quality factor) and lineshape of the supported resonance via the appropriate geometric parameters. By conducting a rigorous multipole analysis, we find that despite the strong toroidal dipole moment, it is the residual electric dipole moment that dictates the electromagnetic response. Subsequently, the structure is fabricated with 3D printing and coated with silver paste. Importantly, the structure is planar, consists of a single metallization layer and does not require a substrate when neighboring meta-atoms are touching, resulting in a practical, thin and potentially low-loss system. Measurements are performed in the 5 GHz regime with a vector network analyzer and a good agreement with simulations is demonstrated.
Keyphrases
  • molecular dynamics
  • energy transfer
  • gold nanoparticles
  • monte carlo
  • room temperature
  • mass spectrometry
  • molecularly imprinted
  • solid state