激光与光电子学进展, 2003, 40 (8): 51, 网络出版: 2006-06-27
光子晶体制备方法最新进展 
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Recent progress in the fabrication of photonic crystals
光子带隙结构 自组织 多光子聚合 可调谐光子晶体 飞秒激光 photonic bandgap self-assembly multiphoton polymerization tunable photonic crystals femtosecond laser
摘要
光子晶体是一种介电常数随空间呈周期性变化的材料.具有光子带隙结构(Photonic Band Gap)的光子晶体,可以调制光子的状态模式,其潜在用途十分广泛.本文介绍了光子晶体的制备方法及其进展.
Abstract
Photonic crystals have emerged as a new kind of microstructure materials whose dielectric constant changes alternately following the coordinates of space. Analogous to the normal atomic crystals, photonic crystals with "photonic bandgap" can modulate the modes of electromagnetic waves in much the same way that semiconductors control the properties of electrons. There are a lot of methods to fabricate photonic crystals. Here in the recent progress for preparation of photonic crystals is reviewed.
杨旅云, 邱建荣. 光子晶体制备方法最新进展[J]. 激光与光电子学进展, 2003, 40(8): 51. 杨旅云, 邱建荣. Recent progress in the fabrication of photonic crystals[J]. Laser & Optoelectronics Progress, 2003, 40(8): 51.
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