Zeonex-based asymmetrical terahertz photonic crystal fiber for multichannel communication and polarization maintaining applications

We report on the design, in-depth analysis, and characterization of a novel elliptical array shaped core rectangular shaped cladded photonic crystal fiber (PCF) for multichannel communication and polarization maintaining applications of terahertz waves. The asymmetrical structure of air holes in bot...

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Published inApplied optics. Optical technology and biomedical optics Vol. 57; no. 4; p. 666
Main Authors Islam, Md Saiful, Sultana, Jakeya, Dinovitser, Alex, Faisal, Mohammad, Islam, Mohammad Rakibul, Ng, Brian W-H, Abbott, Derek
Format Journal Article
LanguageEnglish
Published United States 01.02.2018
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Abstract We report on the design, in-depth analysis, and characterization of a novel elliptical array shaped core rectangular shaped cladded photonic crystal fiber (PCF) for multichannel communication and polarization maintaining applications of terahertz waves. The asymmetrical structure of air holes in both core and cladding results in increased birefringence, while a compact geometry and different cladding air hole size makes the dispersion characteristic flat. The modal characteristics of the PCF are calculated using a finite element method. The simulated results show a near-zero dispersion flattened property of ±0.02  ps/THz/cm, high birefringence of 0.063, low effective material loss of 0.06  cm , and negligible confinement loss of 5.45×10   cm in the terahertz frequency range. Additionally, the core power fraction, effective area, physical attributes, and potential fabrication possibilities of the fiber are discussed.
AbstractList We report on the design, in-depth analysis, and characterization of a novel elliptical array shaped core rectangular shaped cladded photonic crystal fiber (PCF) for multichannel communication and polarization maintaining applications of terahertz waves. The asymmetrical structure of air holes in both core and cladding results in increased birefringence, while a compact geometry and different cladding air hole size makes the dispersion characteristic flat. The modal characteristics of the PCF are calculated using a finite element method. The simulated results show a near-zero dispersion flattened property of ±0.02  ps/THz/cm, high birefringence of 0.063, low effective material loss of 0.06  cm , and negligible confinement loss of 5.45×10   cm in the terahertz frequency range. Additionally, the core power fraction, effective area, physical attributes, and potential fabrication possibilities of the fiber are discussed.
Author Faisal, Mohammad
Sultana, Jakeya
Dinovitser, Alex
Ng, Brian W-H
Islam, Md Saiful
Abbott, Derek
Islam, Mohammad Rakibul
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/29400735$$D View this record in MEDLINE/PubMed
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Snippet We report on the design, in-depth analysis, and characterization of a novel elliptical array shaped core rectangular shaped cladded photonic crystal fiber...
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Title Zeonex-based asymmetrical terahertz photonic crystal fiber for multichannel communication and polarization maintaining applications
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