Opt Quant Electron
 2023
DOI: 10.1007/s11082-023-05092-1
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Sensing performance of Fano resonance induced by the coupling of two 1D topological photonic crystals

Zain Elabdeen A. Mohamed,
Sayed Elshahat,
Alaa M. Abd-Elnaiem
et al.

Abstract: In this work, a realized Fano resonance due to the coupling between two 1DTPC is proposed for refractive index sensing with an ultra-high-quality factor of 106. The generated Fano can be assigned to the coupling between topological edge states of two 1D TPCs. The resulting Fano peak is characteristic with a high transmission value reach to 99% with high sensing performance parameters making the proposed sensor a novel detector for refractive index. The proposed coupling 1D TPCs show a high sensitivity value of… Show more

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Cited by 2 publications
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The effects of the geometric and optical parameters on the performance of a grating perfect absorber sensor in near-infrared band

Sassi,
Ben El Hadj Rhouma,
Taya
et al. 2024
Opt Quant Electron
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The effects of the geometric and optical parameters on the performance of a grating perfect absorber sensor in near-infrared band

Sassi,
Ben El Hadj Rhouma,
Taya
et al. 2024
Opt Quant Electron
2
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0
0
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Theoretical analysis of graded-index topological resonator for improved sensing performance

Goyal,
Dash,
Saini
et al. 2024
Opt. Express
4
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