3.8 Proceedings Paper

Highly sensitive photonic crystal fiber liquid sensor in terahertz frequency range

Journal

MATERIALS TODAY-PROCEEDINGS
Volume 43, Issue -, Pages 3815-3820

Publisher

ELSEVIER
DOI: 10.1016/j.matpr.2020.11.413

Keywords

Birefringence; Hollow core photonic crystal fiber (HCPCF); Liquid sensor; Relative sensitivity; Terahertz frequency

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This study introduces a highly sensitive HCPCF for liquid sensing in the THz region, utilizing asymmetrical rectangular air holes in the cladding region and Topas glass to achieve high sensitivity and low confinement loss. Numerical analysis shows maximum relative sensitivity for water, acetic acid, and chloroform at optimal conditions, along with minimum confinement loss for each liquid.
We propose a highly sensitive hollow core photonic crystal fiber (HCPCF) for liquid sensing in the terahertz (THz) region. Asymmetrical rectangular shaped air holes in the cladding region along with Topas glass as a background material is used to get high sensitivity and low confinement loss. The full vector finite element method (FEM) is used to calculate relative sensitivity and other parameters of the proposed liquid sensor where frequency range is taken from 1 THz to 2 THz. The strut distance variations are also studied in this study to find out minimum strut length to make the proposed sensor fabrication friendly. Numerical analysis shows the maximum relative sensitivity of 91.42% for water, 92.55% for acetic acid and 94.03% for chloroform at optimal conditions along with the minimum confinement loss of 1.06 ? 10 9cm 1 for water, 2.02 ? 10 10cm 1 for acetic acid and 1.39 ? 10 11cm 1 for chloroform. To the best of our knowledge, the proposed HCPCF sensor shows maximum relative sensitivity for liquid. (c)& nbsp;2020 Elsevier Ltd. All rights reserved. Selection and peer-review under responsibility of the scientific committee of the International Conference on Nanoelectronics, Nanophotonics, Nanomaterials, Nanobioscience & Nanotechnology.

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