Design of channel ADD Drop filter using photonic crystal ring resonator

Varshali Sharma, S. K. Saini, Ritu Sharma
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Abstract

In this paper various design of channel ADD Drop filter using photonic crystal ring resonator is investigated. In design I, ADF based on quasi-square PCRR with circular scatters is proposed and analysed for optimized performance. This device consists of rectangular waveguides and a quasi-square PCRR. A good wavelength selective filter with bandwidth about 10.20nm and centre wavelength of pass band 1.4201um is achieved. In the next design, photonic crystal quasi-square cavity based ADF is realised with elliptical scatters for different major and minor axis configurations thus having different ellipticity. It is observed that the output response of the filter is very sensitive to the dimensions of coupling rods and scatter rods. It is observed that when the radius of the scatter rods is increased, then the centre wavelength of the bands get shifted towards higher wavelength range.
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基于光子晶体环形谐振器的通道ADD Drop滤波器设计
本文研究了利用光子晶体环形谐振器设计各种通道ADD Drop滤波器的方法。在设计一中,提出了基于圆形散射体的准平方PCRR的ADF,并对其性能进行了优化分析。该器件由矩形波导和准方形PCRR组成。实现了带宽约为10.20nm、通频带中心波长为1.4201um的良好波长选择滤波器。在接下来的设计中,实现了基于光子晶体准方形腔的ADF,并在不同的长轴和短轴构型下实现椭圆散射体,从而具有不同的椭圆度。结果表明,该滤波器的输出响应对耦合棒和散射棒的尺寸非常敏感。结果表明,随着散射棒半径的增大,各波段的中心波长向更高的波长范围偏移。
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