Zhehao Ye scite author profile

Dielectric metamaterials with low ohmic losses and resonating in the local magnetic mode are preferable for enhancing material non-linearity. Here, we propose and experimentally demonstrate broadband extraordinary electromagnetic transmission (EET) behavior, which is induced by the coupling of magnetic modes of two ceramic cuboids. It is shown that extraordinary electromagnetic transmission behavior through a perforated metal sheet with a subwavelength aperture can be achieved by exciting the first-order magnetic mode Mie resonant coupling of these cuboids. Our findings indicate that the transmission bandwidth and amplitude are dependent on the strength of coupling between the two ceramic cuboids. Additionally, we utilized non-linear effects within the dielectric cuboids to achieve tunable extraordinary electromagnetic transmission behavior. Our results are promising for developing non-linearly tunable microwave devices such as filters and modulators of their strong light-matter interactions.

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Influence of deposition power and annealing on the performance of RF-sputtered SnS for infrared photodetection

Wei¹,

Ye²,

Yu³

et al. 2022

Infrared Physics & Technology

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Zhehao Ye

Direct observation of kinetic characteristic on SnS-based self-powered photodetection

Association between the TAPSE to PASP ratio and short-term outcome in patients with light-chain cardiac amyloidosis

Coupled magnetic Mie resonances induced extraordinary optical transmission and its non-linear tunability

Influence of deposition power and annealing on the performance of RF-sputtered SnS for infrared photodetection

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