# Performance improvement of refractometric sensors through hybrid   plasmonic-Fano resonances

**Authors:** Elshorbagy, M., Cuadrado, A., Gonzalez, G., Gonzalez F. J., and Alda, Javier

arXiv: 1904.00461 · 2019-04-02

## TL;DR

This paper introduces a fiber-tip plasmonic refractometric sensor utilizing hybrid plasmonic-Fano resonances, achieving high sensitivity and figure of merit through optimized design and interference effects.

## Contribution

The work presents a novel sensor design that exploits hybrid plasmonic-Fano resonances for enhanced sensitivity and performance, outperforming existing plasmonic sensors.

## Key findings

- Sensitivity of 1000 nm/RIU
- Figure of Merit of 775 RIU$^{-1}$
- Wide dynamic range up to 0.7 RIU

## Abstract

In this paper, we present a plasmonic refractometric sensor that works under normal incidence; allowing its integration on a fiber tip. The sensor's material and geometry exploit the large scattering cross-section given by high-contrast of the index of refraction subwavelength dielectric gratings. Our design generates a hybrid plasmonic-Fano resonance due to the interference between the surface plasmon resonance and the grating response. We optimize the sensor with a merit function that combines the quality parameter of the resonance and the field enhancement at the interaction volume where the plasmon propagates. Our device shows a high sensitivity (1000 nm/RIU) and a high Figure of Merit (775 RIU$^{-1}$). Degradation in performance is negligible through a wide dynamic range up to 0.7 RIU. These quantitative parameters overperform compared to similar plasmonic sensors.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1904.00461/full.md

## References

67 references — full list in the complete paper: https://tomesphere.com/paper/1904.00461/full.md

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Source: https://tomesphere.com/paper/1904.00461