Dynamically Tunable Plasmon-Induced Transparency in Parallel Black Phosphorus Nanoribbons

Abstract: In this paper, we investigate the dynamically tunable plasmon-induced transparency (PIT) effects in parallel black phosphorus nanoribbons (BPNRs). The results show that the BPNRs having different lengths can be regarded as bright modes. Single-band, double-band, triple-band, and multi-band PIT effects based on the bright-bright mode coupling between parallel BPNRs are achieved. The physical mechanism of the single-band model can be explained theoretically by the radiating two-oscillator (RTO) model. Due to the… Show more

“…The generation of the bright mode is attributed to the strong interaction between the material and the incident electric field. In contrast, the dark mode is the mode that couples with the incident field weakly even uncoupledly [36,37]. When the resonant frequencies are close to each other, different modes will interact with each other, resulting in a sharp resonance.…”

Study on vanadium dioxide based terahertz metamaterials with switchable functions from five-band absorption to triple-band plasmon-induced transparency

“…The generation of the bright mode is attributed to the strong interaction between the material and the incident electric field. In contrast, the dark mode is the mode that couples with the incident field weakly even uncoupledly [36,37]. When the resonant frequencies are close to each other, different modes will interact with each other, resulting in a sharp resonance.…”

Study on vanadium dioxide based terahertz metamaterials with switchable functions from five-band absorption to triple-band plasmon-induced transparency

Efficient Terahertz Sensor and Modulator in Patterned Black Phosphorus Metasurface Based on Double Plasmon-Induced Transparency

High-Sensitivity Sensor Based on Plasmon-Induced Transparency in Terahertz Borophene Metasurface