Design and analysis of the effect of Zeonex based octagonal photonic crystal fiber for different types of communication applications

In this present work, a novel structure of octagonal cladding with two elliptical air holes based on photonic crystal fiber (O-PCF) has been presented for the application of different types of communication areas within the terahertz (THz) wave propagation. There are five layers of octagonal design...

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Bibliographic Details
Published in:Optical and quantum electronics 2021-07, Vol.53 (7), Article 382
Main Authors: Hossain, Md. Selim, Kamruzzaman, M. M., Sen, Shuvo, Azad, Mir Mohammad
Format: Article
Language:English
Subjects:
Biomedical materials
Broadband
Characterization and Evaluation of Materials
Cladding
Communication
Computer Communication Networks
Crystal fibers
Electrical Engineering
Finite element method
Lasers
Optical and Quantum Sciences in Africa
Optical communication
Optical Devices
Optics
Perfectly matched layers
Photonic crystals
Photonics
Physics
Physics and Astronomy
Terahertz frequencies
Wave propagation
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Summary:In this present work, a novel structure of octagonal cladding with two elliptical air holes based on photonic crystal fiber (O-PCF) has been presented for the application of different types of communication areas within the terahertz (THz) wave propagation. There are five layers of octagonal design shape of circular air holes in cladding region with elliptical design shape of two air holes in core area has been reported in this research work. This O-PCF fiber has been investigated by the perfectly matched layers with the finite element method. After the simulation process, our proposed O-PCF fiber shows a low effective material loss of 0.0162 cm −1 , the larger effective area of 5.88 × 10–8 m2, the core power fraction of 80%, the scattering loss of 1.22 × 10 –10  dB/km, and the confinement loss of 3.33 × 10 –14  dB/m at the controlling region of 1 terahertz (THz). Due to its excellent characteristics, this proposed O-PCF fiber gives proficient transmission of broadband terahertz waves of signals. Moreover, for different kinds of optical communication applications and biomedical signals, our suggested O-PCF fiber will be highly perfect in the terahertz (THz) regions.
ISSN:0306-8919
1572-817X
DOI:10.1007/s11082-021-03084-7