Fano-Resonant Hybrid Metamaterial for Enhanced Nonlinear Tunability and Hysteresis Behavior

Artificial resonant metamaterial with subwavelength localized filed is promising for advanced nonlinear photonic applications. In this article, we demonstrate enhanced nonlinear frequency-agile response and hysteresis tunability in a Fano-resonant hybrid metamaterial. A ceramic cuboid is electromagnetically coupled with metal cut-wire structure to excite the high-Q Fano-resonant mode in the dielectric/metal hybrid metamaterial. It is found that the significant nonlinear response of the ceramic cuboid can be employed for realization of tunable metamaterials by exciting its magnetic mode, and the trapped mode with an asymmetric Fano-like resonance is beneficial to achieve notable nonlinear modulation on the scattering spectrum. The nonlinear tunability of both the ceramic structure and the ceramic/metal hybrid metamaterial is promising to extend the operation band of metamaterials, providing possibility in practical applications with enhanced light-matter interactions.

Automated summary

This article demonstrates enhanced nonlinear frequency-agile response and hysteresis tunability in a Fano-resonant hybrid metamaterial, where a ceramic cuboid is electromagnetically coupled with a metal cut-wire structure to excite high-Q Fano-resonant mode. The significant nonlinear response of the ceramic cuboid can be employed for realization of tunable metamaterials, with the trapped mode with an asymmetric Fano-like resonance beneficial for achieving notable nonlinear modulation on the scattering spectrum. The nonlinear tunability of both the ceramic structure and the ceramic/metal hybrid metamaterial extends the operation band of metamaterials, providing possibility in practical applications with enhanced light-matter interactions.