Ο. Parriaux scite author profile

The sensitivity of grating-coupled Surface Plasmon Polaritons (SPPs) on metallic surface has been exploited to investigate the correlation between ripples formation under ultrashort laser exposure and SPPs generation conditions. Systematic examination of coupling of single ultrashort laser pulse on gratings with appropriate periods ranging from 440 nm to 800 nm has been performed. Our approach reveals that a surface plasmon is excited only for an appropriate grating period, the nickel sample exhibits fine ripples pattern, evidencing the plasmonic nature of ripples generation. We propose a systematic investigation supported by a comprehensive study on the obtained modulation of such a coupling efficiency by means of a phenomenological Drude-Lorentz model which captures possible optical properties modification under femtosecond irradiation.

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An intelligible explanation of highly-efficient diffraction in deep dielectric rectangular transmission gratings

Clausnitzer

et al. 2005

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This paper describes in a very easy and intelligible way, how the diffraction efficiencies of binary dielectric transmission gratings depend on the geometrical groove parameters and how a high efficiency can be obtained. The phenomenological explanation is based on the modal method. The mechanism of excitation of modes by the incident wave, their propagation constants and how they couple into the diffraction orders helps to understand the diffraction process of such gratings and enables a grating design without complicated numerical calculations.

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Normalized analysis for the sensitivity optimization of integrated optical evanescent-wave sensors

Parriaux

Veldhuis

1998

J. Lightwave Technol.

147

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Ο. Parriaux

Evidence of surface plasmon resonance in ultrafast laser-induced ripples

An intelligible explanation of highly-efficient diffraction in deep dielectric rectangular transmission gratings

Normalized analysis for the sensitivity optimization of integrated optical evanescent-wave sensors

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