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Main Authors: Qianqian Peng, Qiuping Huang, Xiyuan Zhao, Xiang An, Yunlong Xie, Baojin Peng, Daru Chen
Format: Artículo Open Access
Published: Wiley 2025
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Online Access:https://onlinelibrary.wiley.com/doi/10.1002/mop.70430
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author Qianqian Peng
Qiuping Huang
Xiyuan Zhao
Xiang An
Yunlong Xie
Baojin Peng
Daru Chen
author_facet Qianqian Peng
Qiuping Huang
Xiyuan Zhao
Xiang An
Yunlong Xie
Baojin Peng
Daru Chen
Qianqian Peng
Qiuping Huang
Xiyuan Zhao
Xiang An
Yunlong Xie
Baojin Peng
Daru Chen
collection Wiley Open Access
contents Dual‐Parameter Fiber Optic Sensor for Pressure and Temperature Using Fabry‐Pérot Interferometry and Anti‐Resonance Qianqian Peng Qiuping Huang Xiyuan Zhao Xiang An Yunlong Xie Baojin Peng Daru Chen Microwave and Optical Technology Letters ABSTRACT Accurate monitoring of atmospheric pressure and temperature is vital across multiple disciplines, including meteorological analysis and environmental assessment. This study presents a miniaturized fiber‐optic sensing device that concurrently leverages Fabry‐Pérot (FP) interference and anti‐resonant (AR) guidance within a structure combining hollow‐core fiber and photonic crystal fiber; the two optical mechanisms' distinct environmental sensitivities enable simultaneous pressure and temperature measurement, eliminating the need for multiple sensing units and contributing to a streamlined, cost‐effective design, with experimental results showing that over the 0–0.9 MPa pressure range, the FP and anti‐resonance spectral features respond with sensitivities of 3.897 nm/MPa and −3.268 nm/MPa respectively, while the AR spectrum envelope displays a temperature sensitivity of C and the FP signal remains largely unaffected by thermal changes. Due to its compact architecture, straightforward fabrication process, and high measurement precision, the proposed sensor holds strong potential for real‐world applications requiring dual‐parameter environmental monitoring. 10.1002/mop.70430 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1002/mop.70430
format Artículo Open Access
id wiley_oa_10_1002_mop_70430
institution Wiley Open Access
license_str_mv http://onlinelibrary.wiley.com/termsAndConditions#vor
publishDate 2025
publisher Wiley
record_format wiley_oa
spellingShingle Dual‐Parameter Fiber Optic Sensor for Pressure and Temperature Using Fabry‐Pérot Interferometry and Anti‐Resonance
Qianqian Peng
Qiuping Huang
Xiyuan Zhao
Xiang An
Yunlong Xie
Baojin Peng
Daru Chen
Microwave and Optical Technology Letters
Dual‐Parameter Fiber Optic Sensor for Pressure and Temperature Using Fabry‐Pérot Interferometry and Anti‐Resonance Qianqian Peng Qiuping Huang Xiyuan Zhao Xiang An Yunlong Xie Baojin Peng Daru Chen Microwave and Optical Technology Letters ABSTRACT Accurate monitoring of atmospheric pressure and temperature is vital across multiple disciplines, including meteorological analysis and environmental assessment. This study presents a miniaturized fiber‐optic sensing device that concurrently leverages Fabry‐Pérot (FP) interference and anti‐resonant (AR) guidance within a structure combining hollow‐core fiber and photonic crystal fiber; the two optical mechanisms' distinct environmental sensitivities enable simultaneous pressure and temperature measurement, eliminating the need for multiple sensing units and contributing to a streamlined, cost‐effective design, with experimental results showing that over the 0–0.9 MPa pressure range, the FP and anti‐resonance spectral features respond with sensitivities of 3.897 nm/MPa and −3.268 nm/MPa respectively, while the AR spectrum envelope displays a temperature sensitivity of C and the FP signal remains largely unaffected by thermal changes. Due to its compact architecture, straightforward fabrication process, and high measurement precision, the proposed sensor holds strong potential for real‐world applications requiring dual‐parameter environmental monitoring. 10.1002/mop.70430 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Dual‐Parameter Fiber Optic Sensor for Pressure and Temperature Using Fabry‐Pérot Interferometry and Anti‐Resonance
topic Microwave and Optical Technology Letters
url https://onlinelibrary.wiley.com/doi/10.1002/mop.70430