Identification of detrimental chemicals of plastic products using PCF in the THz regime

Identification of detrimental chemicals of plastic products using PCF in the THz regime

A square cored PCF (SC-PCF) sensor is proposed in this paper for the purpose of detecting detrimental chemical analytes (DEHP, BPA, and BPS) that are generally found in different plastic products. This SC-PCF sensor is capable of operating in the 1–2 THz regimes. Within this operable range, we found...

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Bibliographic Details
Main Authors: Rayhan Habib Jibon, Moaz Ahmed, Md. Khaled Hasan
Format: Article
Language:English
Published: Elsevier 2021-10-01
Series:Measurement: Sensors
Subjects:
Aeff
CL
Detrimental chemical
EML
NA
And PCF
Online Access:http://www.sciencedirect.com/science/article/pii/S2665917421000180
Description
Summary:A square cored PCF (SC-PCF) sensor is proposed in this paper for the purpose of detecting detrimental chemical analytes (DEHP, BPA, and BPS) that are generally found in different plastic products. This SC-PCF sensor is capable of operating in the 1–2 THz regimes. Within this operable range, we found a relatively higher sensitivity of 96.5% along with 95.73% core power fraction, 0.225 numerical aperture, and a lower Aeff of 1.48 × 105 μm2 at 1.9 THz frequency. A tiny confinement loss of 2.68 × 10−13 cm−1 and effective material loss of 0.008 cm−1 are also evaluated. Besides the present fabrication techniques ensures the feasibility of fabrication for this proposed SC-PCF sensor. These estimated results evinced that our proposed sensor can efficiently be used in terms of the noxious chemical compounds, gas, and bio-sensing applications.
ISSN:2665-9174

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