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Manuscript ID : JOPN-1806-1116 (R2) Visit : 73 Page: 59 - 78

20.1001.1.24237361.2018.3.3.6.1

Article Type: Original Research

Novel Design for Photonic Crystal Ring Resonators Based Optical Channel Drop Filter

Subject Areas : Journal of Optoelectronical Nanostructures

ZOHREH RASHKI 1 , Seyed Javad Seyed Mahdavi chabok 2

1 - Department of Electrical Engineering, Mashhad Branch, Islamic Azad University, Mashhad, Iran.
2 - Department of Electrical Engineering, Mashhad Branch, Islamic Azad University, Mashhad, Iran.

Received: 2018-06-08 Accepted : 2018-09-20 Published : 2018-09-01

Keywords: Photonic Crystal, Ring Resonators, Square Lattice, Photonic Integrated Circuits, Optical Communication,

Abstract :

Photonic crystal ring resonators (PCRRs) are traditional structures for
designing optical channel drop filters. In this paper, Photonic crystal channel drop filter
(CDFs) with a new configuration of ring resonator is presented. The structure is made of
a square lattice of silicon rods with the refractive index nsi=3. 4 which are perforated in
air with refractive index nair=1. Calculations of band structure and propagation of
electromagnetic field through devices are done by plane wave expansion (PWE) and
finite difference time domain (FDTD) methods, respectively. The simulation shows,
100% dropping efficiency and suitable quality factor at 1592. 6 nm wavelength achieved
for this filter. Also, in this paper, we investigate parameters which have an effect on
resonant wavelength and transmission spectrum in this CDF, such as refractive index of
inner rods and whole of dielectric rods of the structure. The proposed structure is small
which is more suitable for used in the future photonic integrated circuits, wavelength
division multiplexing (WDM) systems and optical communication network
applications. Also, we suggested a heterostructure wavelength demultiplexer is
composed of four ring resonators. These ring resonators are located in four different
regions (heterostructure) which each region has specific dielectric constant.

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