# Scattering by a periodic array of subwavelength slits I: field   enhancement in the diffraction regime

**Authors:** Junshan Lin, Hai Zhang

arXiv: 1706.02122 · 2017-06-08

## TL;DR

This paper analyzes electromagnetic scattering by a periodic array of subwavelength slits in the diffraction regime, focusing on resonances, field enhancement, and the absence of Fano resonances, providing asymptotic and quantitative insights.

## Contribution

It offers the first detailed asymptotic analysis of resonances and field enhancement in the diffraction regime for subwavelength slit arrays, including the characterization of embedded eigenvalues.

## Key findings

- Resonances and eigenvalues are asymptotically expanded away from Rayleigh cut-off frequencies.
- Field enhancement is quantified and shown to weaken near Rayleigh cut-off frequencies.
- Fano resonant phenomena do not occur in narrow slit arrays.

## Abstract

This is the first part in a series of two papers that concern with the quantitative analysis of the electromagnetic field enhancement and anomalous diffraction by a periodic array of subwavelength slits. The scattering problem in the diffraction regime is investigated in this part, for which the size of the period is comparable to the incident wavelength. We distinguish scattering resonances and real eigenvalues, and derive their asymptotic expansions when they are away from the Rayleigh cut-off frequencies. Furthermore, we present quantitative analysis of the field enhancement at resonant frequencies, by quantifying both the enhancement order and the associated resonant modes. The field enhancement near the Rayleigh cut-off frequencies is also investigated. It is demonstrated that the field enhancement becomes weaker at the resonant frequency if it is close to the Rayleigh cut-off frequencies. Finally, we also characterize the embedded eigenvalues for the underlying periodic structure, and point out that transmission anomaly such as Fano resonant phenomenon does not occur for the narrow slit array.

## Full text

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## Figures

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## References

33 references — full list in the complete paper: https://tomesphere.com/paper/1706.02122/full.md

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Source: https://tomesphere.com/paper/1706.02122