用于功能色散器件的三维光子晶体结构的快速高效分析与设计

M. Badieirostami, B. Momeni, A. Adibi, V. Chen, J. Perry
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引用次数: 0

摘要

我们证明了光束在三维光子晶体内的传播可以用近似的标量衍射模型有效地描述。该模型的主要优点是通过将三维光子晶体问题转化为可应用简单几何光学的等效问题,减少了直接模拟三维光子晶体的内存和计算时间。然后将该模型用于光子晶体色散器件的高效设计,如解复用器和微光谱仪。最后,对聚合物木桩结构进行了实验验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fast and efficient analysis and design of three-dimensional photonic crystal structures for functional dispersive devices
We show that the propagation of optical beams inside three-dimensional photonic crystals can be efficiently described by an approximate scalar diffraction model. The main advantage of this model is that it reduces the memory and computation time for direct simulations of three-dimensional photonic crystals by converting the problem into an equivalent problem for which simple geometrical optics can be applied. Then we use this model for efficient design of photonic crystal dispersive devices such as demultiplexers and microspectrometers. Finally, experimental verification of the results for the polymer woodpile structures will be given.
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