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14 November 2016 Slotted-core photonic crystal fiber in gas-sensing application
S. Asaduzzaman, K. Ahmed, B. K. Paul
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Proceedings Volume 10025, Advanced Sensor Systems and Applications VII; 100250O (2016) https://doi.org/10.1117/12.2247753
Event: SPIE/COS Photonics Asia, 2016, Beijing, China
Abstract
Combustible or harmful gasses noticeable all around are adequate to decimating a geographical region of bringing about a flame, explosion, and venomous exposure. In this paper, a highly sensitive gas sensor based on slotted-core photonic crystal fiber has been presented which can be used as a gas sensor. The guiding properties of the proposed PCF are numerically investigated by employing finite element method (FEM). The Proposed PCF contains slotted core and a hexagonal cladding where the geometrical parameters are varied to optimized. Simulation result reveals that the proposed PCF shows a high relative sensitivity of 48.26%, the high birefringence of 2.17×10-2 and a lower confinement loss of 1.26×10 -5 dB/m. Effective area, Beat length, Splice loss, V-parameter are also reported in this paper.
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S. Asaduzzaman, K. Ahmed, and B. K. Paul "Slotted-core photonic crystal fiber in gas-sensing application", Proc. SPIE 10025, Advanced Sensor Systems and Applications VII, 100250O (14 November 2016); https://doi.org/10.1117/12.2247753
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Cited by 15 scholarly publications and 1 patent.
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KEYWORDS
Cladding
Birefringence
Photonic crystal fibers
Finite element methods
Gas sensors
Optical fibers
Refractive index
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