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MD. AMINUL ISLAM1, MOHAMMAD RAKIBUL ISLAM1,* , ZAREEN MUSTAFA1, AADREETA HOSSAIN1, TAHIA TAHSIN1
- Department of Electrical and Electronic Engineering, Islamic University of Technology, Gazipur1704, Bangladesh
In this paper, a porous-core photonic crystal fiber(PC-PCF)is proposed to minimize the effective material loss for terahertz wave transmission. The full vector finite element method with an ideally matched layer boundary condition is used to characterize the wave guiding properties of the proposed fiber. At an operating frequency of 0.5-1.7THz, simulated results exhibit an extremely low effective material loss of 0.029 cm-1,high core power fraction of 50% and ultra-flattened dispersionof1.03±0.04ps/THz/cmat 90% porosity.Besides, only circular air holes have been used which makes the fiber remarkably simpler. Also, physical insights of the proposed fiber have been discussed. The proposed fiber has thepotential of being a promising candidate for different applications in the THz regime..
Terahertz guidance, Photonic crystal fiber, Core porosity, Effective material loss, Confinement loss.
Submitted at: Oct. 27, 2019
Accepted at: April 8, 2021
MD. AMINUL ISLAM, MOHAMMAD RAKIBUL ISLAM, ZAREEN MUSTAFA, AADREETA HOSSAIN, TAHIA TAHSIN, Modeling and analysis of a low loss Hexa circular PC-PCF for efficient THz waveguide transmission, Journal of Optoelectronics and Advanced Materials Vol. 23, Iss. 3-4, pp. 119-126 (2021)
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