%0 journal article
%@ 2040-3364
%A Hedayati, M.K., Fahr, S., Etrich, C., Faupel, F., Rockstuhl, C., Elbahri, M.

%D 2014
%J Nanoscale
%N 11
%P 6037-6045 
%R doi:10.1039/c4nr00087k
%T The hybrid concept for realization of an ultra-thin plasmonic metamaterial antireflection coating and plasmonic rainbow
%U https://doi.org/10.1039/c4nr00087k
11 
%X We report on the design, simulation, fabrication, and characterization of a novel two layer anti-reflective coating (ARC) based on a plasmonic metamaterial and a dielectric. Promoted by the strong material dispersion of the plasmonic metamaterial, our novel concept (called hybrid ARC) combines two possible arrangements for layers in an anti-reflection coating into a single structure; albeit at two different wavelengths. This, however, causes a broadband reduction of reflection that is less sensitive against oblique incidence when compared to traditional antireflective coatings. Furthermore, we show that the current metamaterial on a metal reflector can be used for the visualization of different coloration such as plasmonic rainbow despite its sub-wavelength thickness.