Quantitative angle-resolved small-spot reflectance measurements on plasmonic perfect absorbers: impedance matching and disorder effects.

@article{Tittl2014QuantitativeAS,
  title={Quantitative angle-resolved small-spot reflectance measurements on plasmonic perfect absorbers: impedance matching and disorder effects.},
  author={Andreas Tittl and Moshe G. Harats and Ramon Walter and Xinghui Yin and Martin Sch{\"a}ferling and Na Liu and Ronen Rapaport and Harald Giessen},
  journal={ACS nano},
  year={2014},
  volume={8 10},
  pages={
          10885-92
        }
}
Plasmonic devices with absorbance close to unity have emerged as essential building blocks for a multitude of technological applications ranging from trace gas detection to infrared imaging. A crucial requirement for such elements is the angle independence of the absorptive performance. In this work, we develop theoretically and verify experimentally a quantitative model for the angular behavior of plasmonic perfect absorber structures based on an optical impedance matching picture. To achieve… 
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