Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas

Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas

In this article, we propose a rectangular slotted porous core photonic crystal fiber (RSPC-PCF) for sensing the CO2 gas. The RSPC-PCF is made of purely silica material with rectangular air holes in core and circular air holes in cladding. The COMSOL Multi-physics software with version 4.5.150 is use...

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Bibliographic Details
Main Authors: Md. Ranju Sardar, Mohammad Faisal, Kawsar Ahmed
Format: Article
Language:English
Published: Elsevier 2020-12-01
Series:Sensing and Bio-Sensing Research
Subjects:
PCF
Confinement loss
Relative sensitivity
Effective mode area
Nonlinearity and gas sensor
Online Access:http://www.sciencedirect.com/science/article/pii/S221418042030204X
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spelling doaj-dce59086726f4e72b6622ee25b494a3a2020-12-19T05:07:05ZengElsevierSensing and Bio-Sensing Research2214-18042020-12-0130100379Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gasMd. Ranju Sardar0Mohammad Faisal1Kawsar Ahmed2Department of Electrical & Electronic Engineering, Bangladesh University of Engineering & Technology, Dhaka 1205, Bangladesh; Corresponding author.Department of Electrical & Electronic Engineering, Bangladesh University of Engineering & Technology, Dhaka 1205, BangladeshGroup of Biophotomatix, Department of Information and Communication Technology, Mawlana Bhashani Science and Technology University, Santosh, Tangail 1902, BangladeshIn this article, we propose a rectangular slotted porous core photonic crystal fiber (RSPC-PCF) for sensing the CO2 gas. The RSPC-PCF is made of purely silica material with rectangular air holes in core and circular air holes in cladding. The COMSOL Multi-physics software with version 4.5.150 is used as a design and simulation tools. The effects of tuning the geometrical parameters have been numerically analyzed by using full-vector finite element method (FEM). The numerical results show the maximum relative sensitivity of 24% and minimum confinement loss of 0.0012 dB/m at 4 μm the absorption wavelength of CO2 gas. In addition, numerical aperture (NA) is also explored to check the light acceptance of the sensor. Since our proposed design is very simple having better sensitivity, it will be a suitable candidate for sensing the CO2 gas in the earth's atmosphere effectively.http://www.sciencedirect.com/science/article/pii/S221418042030204XPCFConfinement lossRelative sensitivityEffective mode areaNonlinearity and gas sensor
collection DOAJ
language English
format Article
sources DOAJ
author Md. Ranju Sardar
Mohammad Faisal
Kawsar Ahmed
spellingShingle Md. Ranju Sardar
Mohammad Faisal
Kawsar Ahmed
Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas
Sensing and Bio-Sensing Research
PCF
Confinement loss
Relative sensitivity
Effective mode area
Nonlinearity and gas sensor
author_facet Md. Ranju Sardar
Mohammad Faisal
Kawsar Ahmed
author_sort Md. Ranju Sardar
title Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas
title_short Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas
title_full Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas
title_fullStr Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas
title_full_unstemmed Design and characterization of rectangular slotted porous core photonic crystal fiber for sensing CO2 gas
title_sort design and characterization of rectangular slotted porous core photonic crystal fiber for sensing co2 gas
publisher Elsevier
series Sensing and Bio-Sensing Research
issn 2214-1804
publishDate 2020-12-01
description In this article, we propose a rectangular slotted porous core photonic crystal fiber (RSPC-PCF) for sensing the CO2 gas. The RSPC-PCF is made of purely silica material with rectangular air holes in core and circular air holes in cladding. The COMSOL Multi-physics software with version 4.5.150 is used as a design and simulation tools. The effects of tuning the geometrical parameters have been numerically analyzed by using full-vector finite element method (FEM). The numerical results show the maximum relative sensitivity of 24% and minimum confinement loss of 0.0012 dB/m at 4 μm the absorption wavelength of CO2 gas. In addition, numerical aperture (NA) is also explored to check the light acceptance of the sensor. Since our proposed design is very simple having better sensitivity, it will be a suitable candidate for sensing the CO2 gas in the earth's atmosphere effectively.
topic PCF
Confinement loss
Relative sensitivity
Effective mode area
Nonlinearity and gas sensor
url http://www.sciencedirect.com/science/article/pii/S221418042030204X
work_keys_str_mv AT mdranjusardar designandcharacterizationofrectangularslottedporouscorephotoniccrystalfiberforsensingco2gas
AT mohammadfaisal designandcharacterizationofrectangularslottedporouscorephotoniccrystalfiberforsensingco2gas
AT kawsarahmed designandcharacterizationofrectangularslottedporouscorephotoniccrystalfiberforsensingco2gas
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