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We report recent advances of polymer waveguide silicone materials for the scaled production of optical waveguides. The development of materials is described with the latest generation achieving low loss waveguides of <0.04 dB/cm at 850 nm and fabrication times of less than 10 minutes.
Summary form only given. Photonic Band Gap (PBG) materials are artificial, periodic, dielectrics that enable engineering of the most fundamental properties of electromagnetic waves. These include the laws of refraction, diffraction, and spontaneous emission of light. Unlike traditional semiconductors that rely on the propagation of electrons through an atomic lattice, PBG materials execute their novel...
Photonic band gap (PBG) materials are 3D periodic dielectrics that enable engineering of the most fundamental properties of electromagnetic waves. Most strikingly, they enable the trapping and localization of light. Unlike electronic micro-circuitry, optical wave-guides in a PBG micro-chip can simultaneously conduct hundreds of wavelength channels of information in a three-dimensional circuit path...
Summary form only given. Photonic band gap (PBG) materials are artificial, periodic, dielectrics that enable engineering of the most fundamental properties of electromagnetic waves. These include the laws of refraction, diffraction, and spontaneous emission of light. Unlike traditional semiconductors that rely on the propagation of electrons through an atomic lattice. PBG materials execute their novel...
Using direct laser writing, we fabricate photoresist templates for 3D-2D-3D photonic crystal heterostructures. The optical properties of these structures are directly compared with scattering-matrix calculations, revealing good agreement, hence good sample quality.
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