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Absorption and scattering in perfect thermal radiation absorber-emitter metasurfaces

Yoshiaki Nishijima, Naoki To, Armandas Balčytis, Saulius Juodkazis

2022Optics Express33 citationsDOIOpen Access PDF

Abstract

Detailed spectral analysis of radiation absorption and scattering behaviors of metasurfaces was carried out via finite-difference time-domain (FDTD) photonic simulations. It revealed that, for typical metal-insulator-metal (MIM) nanodisc metasurfaces, absorbance and scattering cross-sections exhibit a ratio of σ abs / σ sca = 1 at the absorption peak spectral position. This relationship was likewise found to limit the attainable photo-thermal conversion efficiency in experimental and application contexts. By increasing the absorption due to optical materials, such as Cr metal nano-films typically used as an adhesion layer, it is possible to control the total absorption efficiency η = σ abs / σ sca and to make it the dominant extinction mechanism. This guided the design of MIM metasurfaces tailored for near-perfect-absorption and emission of thermal radiation. We present the fabrication as well as the numerical and experimental spectral characterisation of such optical surfaces.

Topics & Concepts

Materials scienceOpticsAbsorption (acoustics)ScatteringAbsorbanceMolar absorptivityThermal radiationAttenuation coefficientRadiationPhotonicsAbsorption spectroscopyOptoelectronicsRaman scatteringLight scatteringThermalExtinction (optical mineralogy)Finite-difference time-domain methodAbsorptanceMie scatteringForward scatterRadiative transferRefractive indexSpectroscopyCoupled mode theoryExtinction ratioTransmittanceSpectral lineRayleigh scatteringNanophotonicsThermal Radiation and Cooling TechnologiesMetamaterials and Metasurfaces ApplicationsElectromagnetic wave absorption materials
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