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Tunable rainbow light trapping in ultrathin resonator arrays.


ABSTRACT: Rainbow light trapping in plasmonic devices allows for field enhancement of multiple wavelengths within a single device. However, many of these devices lack precise control over spatial and spectral enhancement profiles and cannot provide extremely high localised field strengths. Here we present a versatile, analytical design paradigm for rainbow trapping in nanogroove arrays by utilising both the groove-width and groove-length as tuning parameters. We couple this design technique with fabrication through multilayer thin-film deposition and focused ion beam milling, which enables the realisation of unprecedented feature sizes down to 5?nm and corresponding extreme normalised local field enhancements up to 103. We demonstrate rainbow trapping within the devices through hyperspectral microscopy and show agreement between the experimental results and simulation. The combination of expeditious design and precise fabrication underpins the implementation of these nanogroove arrays for manifold applications in sensing and nanoscale optics.

SUBMITTER: Dixon K 

PROVIDER: S-EPMC7693327 | biostudies-literature | 2020 Nov

REPOSITORIES: biostudies-literature

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Tunable rainbow light trapping in ultrathin resonator arrays.

Dixon Katelyn K   Montazeri Arthur O AO   Shayegannia Moein M   Barnard Edward S ES   Cabrini Stefano S   Matsuura Naomi N   Holman Hoi-Ying HY   Kherani Nazir P NP  

Light, science & applications 20201126 1


Rainbow light trapping in plasmonic devices allows for field enhancement of multiple wavelengths within a single device. However, many of these devices lack precise control over spatial and spectral enhancement profiles and cannot provide extremely high localised field strengths. Here we present a versatile, analytical design paradigm for rainbow trapping in nanogroove arrays by utilising both the groove-width and groove-length as tuning parameters. We couple this design technique with fabricati  ...[more]

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