Titlebook: Amorphous Nanophotonics; Carsten Rockstuhl,Toralf Scharf Book 2013 Springer-Verlag Berlin Heidelberg 2013 amorphous metamaterials.amorphou

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Bottom-up Organisation of Metallic Nanoparticles,ction, different strategies that were used in the past to assemble nanoparticles into defined structures are briefly discussed. Such strategies rely on templates such as liquid crystals, DNA or surfactants. A versatile approach, which relies on charge-driven self-assembly mediated by charged surface

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Recent Advances in Nearfield Optical Analysis and Description of Amorphous Metamaterials,of these periodically arranged particles is relatively easily captured in exact theoretical calculations using periodic boundary condition. On the contrary, the study of amorphous plasmonics has received much less attention, at least partially due to high computational costs that severely limit an e

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Structure and Properties of Photonic Amorphous Diamond,in principle, cannot be realized in conventional photonic crystals. In passbands, the photonic amorphous diamond exhibits diffusive light-propagation, where the scattering strength increases significantly as the frequency approaches the band edge. In frequency ranges near the band edge, the scatteri

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Random Light Scattering,ation length. Light scattering is discussed in terms of scalar scattering theory in Sect. .. In Sect. . a Fourier theory is presented which avoids some of the limitations of scalar theory. Finally, Sect. . illustrates the application of random surfaces and the description of their scattering propert

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Carsten Michels M.A.,Benjamin Teutmeyer M.A.hierarchically organized as they possess two length scales: the inter-particle distance within the cluster and the inter-cluster separation within the metamaterial. The nanoparticle clusters can be formed by direct or template-assisted self-organization and are generally amorphous due to the random