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Fano-like resonance in large-area magnetic metamaterials fabricated by nanoimprint technique title
摘要: We experimentally and theoretically investigated the Fano-like resonance in large-area magnetic metasurfaces fabricated by nanoimprint lithography technique based on elaborately designed Ag-SiN-Ag configuration. Asymmetric line shape is revealed in reflection spectrum of the magnetic metamaterials. The physical mechanism is elucidated through dispersion relation and electromagnetic field distribution analysis. Both the measured and calculated dispersion relation tell that there are magnetic resonance modes and surface lattices modes coexisting in the magnetic metamaterials, their coupling leads to the asymmetric profile in the reflection spectrum. The calculated electromagnetic field distribution further consolidate the coupling phenomenon in the magnetic metamaterials. This work might significantly prompt the applications of metamaterials in sensing, lasing, and optical devices designing.
关键词: SPP,magnetic resonance,Fano Resonance,surface lattice resonance,magnetic metamaterials
更新于2025-09-23 15:23:52
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Wave Propagation Concepts for Near-Future Telecommunication Systems || Manipulating Electromagnetic Waves with Zero Index Materials
摘要: Zero-index material is a typical metamaterial with an effective zero refractive index, possessing a variety of exotic electromagnetic properties and particular functionalities. We have considered two kinds of zero-index materials with the first one an early matched zero index made of magnetic metamaterial and the second one a radially anisotropic zero index. The magnetic metamaterial-based systems are shown to be significant in wavefront engineering and flexibly tunable by an external magnetic field and a temperature field. The radially anisotropic zero-index-based systems can remarkably enhance the omnidirectional isotropic radiation by enclosing a line source and a dielectric particle within a shell configuration. The physical origin lies in that the dielectric particle effectively rescatters the trapped anisotropic higher order modes and converts them into the isotropic 0th order mode radiated outside the system. The case for the system with the loss is then examined and the energy compensation with a gain particle is also demonstrated.
关键词: multiple scattering theory,magnetic metamaterials,zero index materials,omnidirectional isotropic radiation,Mie theory
更新于2025-09-09 09:28:46