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Covert infrared image encoding through imprinted plasmonic cavities.

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This study presents a novel plasmonic nanostructure system. It enables tunable infrared light control while maintaining stable visible light properties, ideal for advanced coatings.

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Area of Science:

  • Nanophotonics and Metamaterials
  • Optics and Electromagnetic Spectrum Control

Background:

  • Functional surfaces controlling light are crucial.
  • Plasmonic nanostructures offer tunable resonances but often lack spectral independence.
  • Controlling higher-order resonances and lower-wavelength features remains challenging.

Purpose of the Study:

  • To develop a cavity-coupled plasmonic system with independent spectral tuning.
  • To achieve tunable infrared resonances (3-5 or 8-14 μm) without affecting visible light properties.
  • To demonstrate multispectral data encoding for applications like anti-counterfeiting.

Main Methods:

  • Designing cavity-coupled plasmonic systems.
  • Investigating regime-dependent resonance mechanisms.
  • Identifying and constraining key structural parameters for independent control.
  • Utilizing large-area nanoimprint lithography for fabrication.

Main Results:

  • Resonances tunable across specific infrared bands (3-5 or 8-14 μm).
  • Near-invariant spectral properties maintained in the visible domain.
  • Demonstration of multispectral data encoding: infrared images hidden in visible light.
  • Fabrication compatible with flexible surfaces.

Conclusions:

  • The developed system offers independent control over different spectral domains.
  • This technology enables multifunctional coatings for thermal management, camouflage, and anti-counterfeiting.
  • Regime-dependent resonance mechanisms are key to achieving spectral independence.