三维光子晶体:设计与仿真

C. Cimpulungeanu, M. Kusko, C. Kusko, D. Cristea, P. Schiopu
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引用次数: 1

摘要

设计并模拟了在绝缘体上硅(SOI)层上实现的光子晶体。所获得的带隙以1.55 μ m的波长为中心,这是当今等离子光通信的光谱区域。我们设计了两种包含光子晶体的波导(锥形和直线型),这些波导将在SOI晶圆上实现。该光子晶体由方形或六角形的孔晶格组成,这些孔结构在沉积在氧化硅上的高折射率层中。采用平面波展开(PWE)和时域有限差分(FDTD)相结合的方法确定了该结构的带隙,并计算了系统的透射和反射特性。通过时域有限差分模拟,我们证明了在光子晶体中实现的由线缺陷组成的波导中的亚波长限制。
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3D photonic crystals : Design and simulation
We designed and simulated a photonic crystal realized on silicon on insulator(SOI) layers. The obtained bandgap is centered on the wavelength of 1.55 mum, the spectral region for todaypsilas optical communications. We designed two types of waveguides (tapered and straight) that contain the photonic crystal, and these are to be implemented on SOI wafers. The photonic crystals consists in a square or hexagonal lattice of holes configured in a high refractive index layer deposited on silicon oxide. By using a combination of plane wave expansion (PWE) and finite difference time domain (FDTD) methods we have determined the bandgap of the structure and we have computed the transmission and reflection properties of the system. Using FDTD simulations, we have put in evidence the subwavelength confinement in a waveguide consisting in a line defects realized in the photonic crystal.
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