Gap-Size-Dependent Effective Phase Transition in Metasurfaces of Closed-Ring Resonators
We theoretically investigate a metal-to-insulator transition in artificial two-dimensional (2D) crystals (i.e., metasurfaces) of tightly coupled closed-ring resonators. Strong interaction between unit resonators in the metasurfaces yields the effective permittivity highly dependent on the lattice spacing of unit resonators. Through our rigorous theory, we provide a closed form of effective permittivity of the metasurface and reveal that the permittivity possesses a Lorentzian-type resonant behavior, implying that the transition of the effective permittivity can arise when the lattice spacing passes a critical value.
- Publisher
- MDPI
- Issue Date
- 2021-06
- Language
- English
- Article Type
- Article
- Citation
CRYSTALS, v.11, no.6
- ISSN
- 2073-4352
- Appears in Collection
- RIMS Journal Papers
- Files in This Item
- 120784.pdf(2.03 MB)Download
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