Design of Ultra-flattened Zero Dispersion Shifted Photonic Crystal Fibers with Lower Confinement Loss for Telecommunication Applications

Rajib Ahmed; Rajib Ahmed; Rifat Ahmmed Aoni; Di Pasquale Fabrizio

doi:10.1364/SUMSESSION.2013.Tu6

2013 CIOMP-OSA Summer Session on Optical Engineering, Design and Manufacturing
(Optica Publishing Group, 2013),
paper Tu6
•https://doi.org/10.1364/SUMSESSION.2013.Tu6

Design of Ultra-flattened Zero Dispersion Shifted Photonic Crystal Fibers with Lower Confinement Loss for Telecommunication Applications

Rajib Ahmed, Rifat Ahmmed Aoni, and Di Pasquale Fabrizio

CIOMP-OSA Summer Session on Optical Engineering, Design and Manufacturing 2013

Changchun China
4–9 August 2013
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Tuesday, 6 August Poster Session (Tu)

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R. Ahmed, R. A. Aoni, and D. P. Fabrizio, "Design of Ultra-flattened Zero Dispersion Shifted Photonic Crystal Fibers with Lower Confinement Loss for Telecommunication Applications," in 2013 CIOMP-OSA Summer Session on Optical Engineering, Design and Manufacturing, J. Rolland, J. Wyant, P. Chavel, X. Zhang, C. Wang, and Y. Bai, eds., (Optica Publishing Group, 2013), paper Tu6.

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Abstract

A triangular-lattice photonic crystal fiber (PCF) have been design, simulated and optimized and found nearly zero ultra-flattened dispersion (0.96-0.86 ps/nm/km) with very low confinement loss (<10-5 db/km), moderate effective area (7.7 μm²), lower splice loss (4.8 db with MFD-3.1 μm) & nonlinear coefficient (18 W⁻¹Km⁻¹) properties. A five-ringed photonic crystal fiber have been designed with the finite differential time domain method (FDTD) and perfectly matched absorbing layers boundary condition is used to investigate the guiding properties.

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