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

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Recent Advances in Nearfield Optical Analysis and Description of Amorphous Metamaterials,c material that is easily fabricated in large quantities and over macroscopic areas. It consists of individual, nominally identical, plasmonic resonators, whose spatial arrangement is random. These elements have been studied intensely over the last decade on a single particle level. Investigations o

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Structure and Properties of Photonic Amorphous Diamond,iewed in this chapter. It has been demonstrated numerically and experimentally that a full three-dimensional (3D) photonic band gap is formed in the photonic amorphous diamond, in spite of complete absence of lattice periodicity. This proves that lattice periodicity is not essential to the realizati

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Amorphous Nanophotonics in Nature,ogical structural colour mechanisms has been identified. These mechanisms include highly periodic microstructures associated with bright and saturated colours, and amorphous structures which produce broadband colours and generally diffuse reflectances. In this chapter several highly functional amorp

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Active Plasmonics in Self-organized Soft Materials,oretical description of the physical mechanisms that allow such a tunability. Afterwards, it follows an overview of the up-to-date results obtained in this direction. Several proof-of-concept prototypes have been successfully fabricated and are reported as well.

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Plasmonic Nanoparticle-Based Metamaterials: From Electric to Magnetic Response,wide range of fields like nanophotonics, nanoelectronics or catalysis. In the present chapter, we discuss the potential of metal nanospheres for the bottom-up fabrication of optical metamaterials. Controlling the spatial arrangement of the nanoparticles in these composites offers a promising route t

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