Design and Simulation of Photonic Crystal Fiber for Liquid Sensing

Maidi, Abdul Mu’iz and Yakasai, Izaddeen and Abas, Pg Emeroylariffion and Nauman, Malik Muhammad and Apong, Rosyzie Anna and Kaijage, Shubi and Begum, Feroza (2021) Design and Simulation of Photonic Crystal Fiber for Liquid Sensing. Photonics, 8 (1). p. 16. ISSN 2304-6732

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Abstract

A simple hexagonal lattice photonic crystal fiber model with liquid-infiltrated core for different liquids: water, ethanol and benzene, has been proposed. In the proposed structure, three air hole rings are present in the cladding and three equal sized air holes are present in the core. Numerical investigation of the proposed fiber has been performed using full vector finite element method with anisotropic perfectly match layers, to show that the proposed simple structure exhibits high relative sensitivity, high power fraction, relatively high birefringence, low chromatic dispersion, low confinement loss, small effective area, and high nonlinear coefficient. All these properties have been numerically investigated at a wider wavelength regime 0.6–1.8 μm within mostly the IR region. Relative sensitivities of water, ethanol and benzene are obtained at 62.60%, 65.34% and 74.50%, respectively, and the nonlinear coefficients are 69.4 W−1 km−1 for water, 73.8 W−1 km−1 for ethanol and 95.4 W−1 km−1 for benzene, at 1.3 µm operating wavelength. The simple structure can be easily fabricated for practical use, and assessment of its multiple waveguide properties has justified its usage in real liquid detection.

Item Type: Article
Uncontrolled Keywords: photonic crystal fiber; liquid sensing; relative sensitivity; nonlinear coefficient
Subjects: STM Repository > Multidisciplinary
Depositing User: Managing Editor
Date Deposited: 13 Mar 2024 04:24
Last Modified: 13 Mar 2024 04:24
URI: http://classical.goforpromo.com/id/eprint/1400

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