Photonic Bandgap Engineering in Mixed Colloidal Photonic Crystals

Hee Jin Kim; Young-Geun Roh; Heonsu Jeon

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Photonic Bandgap Engineering in Mixed Colloidal Photonic Crystals

机译：混合胶体光子晶体中的光子带隙工程

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We demonstrated that photonic bandgap can be engineered in a manner analogous to the electronic bandgap tuning of the GaAlAs mixed semiconductor system. Two kinds of sub-micron spheres of the same size but of different materials, silica and polystyrene, were randomly mixed and ordered into a densely packed colloidal photonic crystal (CPC). Reflectance spectrum measurements revealed that as the polystyrene sphere composition increases the L-point pseudo-bandgap linearly red-shifts over the range from 1010 nm (for pure silica CPC) to 1090nm (for pure polystyrene CPC) while the reflectance bandwidth remains constant. This spectral shift is in excellent agreement with the prediction based on the effective-medium theory.

机译：我们证明了可以以类似于GaAlAs混合半导体系统的电子带隙调谐的方式设计光子带隙。将两种大小相同但材料不同的亚微米球随机混合，并排列成一个紧密堆积的胶体光子晶体（CPC）。反射光谱测量表明，随着聚苯乙烯球体成分的增加，L点伪带隙在从1010 nm（对于纯二氧化硅CPC）到1090nm（对于纯聚苯乙烯CPC）的范围内线性红移，而反射带宽保持恒定。该频谱偏移与基于有效介质理论的预测非常吻合。

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来源
《Japanese Journal of Applied Physics. Part 2, Letters & Express Letters》 |2005年第41期|p.L1259-L1262|共4页
作者
Hee Jin Kim; Young-Geun Roh; Heonsu Jeon;
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作者单位

School of Physics and Nano-Systems Institute, Seoul National University, Seoul 151-747, Korea;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
colloidal photonic crystals; photonic bandgap; mixed crystals; bandgap engineering; silica spheres; polystyrene spheres;

机译：胶体光子晶体;光子带隙;混合晶体;带隙工程;二氧化硅球;聚苯乙烯球;

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Photonic Bandgap Engineering in Mixed Colloidal Photonic Crystals

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