基于分形各向异性多层结构的纳米四分之一波缓速器

Proceedings of 2003 5th International Conference on Transparent Optical Networks, 2003. Pub Date : 2003-06-29 DOI:10.1109/ICTON.2003.1264646

S. Zhukovsky

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引用次数: 2

摘要

一种分形康托状多层结构具有光学双折射特性，其分形结构可作为四分之一阻波器。所提出的装置比相应的传统量子水阱小几倍，并且包含的各向异性材料减少了约15%。再加上形式各向异性的明显缺失，这表明，当所讨论的材料以确定性的非周期方式排列时，材料的双折射可以大大增强，可能是通过已知在这种系统中发生的光的局部化。

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Nanosized quarter-wave retarder based on fractal anisotropic multilayer structures

A fractal Cantor-like multilayer structure with one constituent material exhibiting optical birefringence is numerically shown to function as a quarter wave retarder. The proposed device is several times smaller than the corresponding conventional QWR and contains about 15 limes less anisotropic material. Together with the apparent absence of form anisotropy, it suggests that material birefringence can be considerably enhanced when the material in question is arranged in a deterministic non-periodic fashion, presumably by localization of light that is known to occur in such systems.

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Proceedings of 2003 5th International Conference on Transparent Optical Networks, 2003.

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