氮化镓制备二维光子晶体负折射效应的数值研究

2011 International Students and Young Scientists Workshop "Photonics and Microsystems" Pub Date : 2011-07-08 DOI:10.1109/STYSW.2011.6155855

K. Ptasínski, S. Patela

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引用次数: 1

摘要

研究了在氮化镓(GaN)中制备光子晶体获得负折射的条件。采用平面波展开法(PWE)和时域有限差分法(FDTD)对二维光子晶体与空气界面处的负折射现象进行了数值分析。为了描述负折射的起源，我们对每一种光子晶体结构的频率面进行了模拟。在氮化镓中刻蚀空气孔六边形晶格的二维光子晶体中发现了负的有效折射率。我们还观察到了具有空气孔方形晶格的二维光子晶体在不存在负折射率的情况下的全角负折射。此外，还模拟了超透镜效应作为负折射在二维光子晶体中的潜在应用。

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Numerical investigation of negative refraction effect in two-dimensional photonic crystal fabricated in gallium nitride

We investigated the conditions for obtaining negative refraction in photonic crystals fabricated in gallium nitride (GaN). Negative refraction at the interface between air and two-dimensional photonic crystals was numerically analyzed using Plane Wave Expansion Method (PWE) and Finite Difference Time Domain Method (FDTD). To describe the origin of negative refraction we have carried out simulations of equifrequency surfaces (EFS) of each photonic crystal structure. The presence of negative effective refractive index has been shown in two dimensional photonic crystal with hexagonal lattice of air holes etched in GaN. We have also observed all-angle negative refraction without existence of negative refractive index for 2D photonic crystal with square lattice of air holes. Additionally, the superlensing effect as a potential application of negative refraction in two dimensional photonic crystal was simulated.

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2011 International Students and Young Scientists Workshop "Photonics and Microsystems"

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