Performance of Hollow-Core Photonic Crystal Fiber-Based Trace C₂H₂ Detection System

IF 5.6 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Instrumentation and Measurement Pub Date : 2025-02-06 DOI:10.1109/TIM.2025.3534217

Xianzong Chao;Fuping Zeng;Hongtu Cheng;Xinghai Jiang;Zujian Huang;Qiang Yao;Ju Tang

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引用次数: 0

Abstract

In this article, we propose an optical sensor system utilizing the capabilities of hollow-core photonic crystal fiber (HC-PCF) to transmit excitation light and hold sample gas. The direct absorption response is examined for different modulation waveforms, pressures, frequencies, and concentrations. The experimental results show that the response signal has an obvious overshoot and spike. The overshoot and spike are more obvious under the sine modulation than the rectangular modulation. In the 1–500-Hz range, the system demonstrated optimum response characteristics at 5 Hz, corresponding to the maximum attenuation percentage. Furthermore, a positive correlation was observed between the attenuation percentage of light intensity (

${A} _{\text {t}}$

) and optical power (

${A} _{\text {p}}$

) with the pressure in the gas chamber within the range of 0.1–0.3 MPa. When the gas chamber is filled with 10000-ppm C2H2/N2 to 0.3 MPa, At and Ap are 47.98% and 22.73%, respectively. A good linear relationship exists between the attenuation value of photodetector (PD) output and target gas concentration with a correlation coefficient above 0.99 after 140 s. The theoretical minimum detection limit of C2H2 without the erbium-doped fiber amplifier (EDFA) is 49.28 ppm and the relative synthetic standard uncertainty is 3.35%. This article provides an idea for applying the HC-PCF-based gas sensing system.

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来源期刊

IEEE Transactions on Instrumentation and Measurement 工程技术-工程：电子与电气

CiteScore

9.00

自引率

23.20%

发文量

1294

审稿时长

3.9 months

期刊介绍： Papers are sought that address innovative solutions to the development and use of electrical and electronic instruments and equipment to measure, monitor and/or record physical phenomena for the purpose of advancing measurement science, methods, functionality and applications. The scope of these papers may encompass: (1) theory, methodology, and practice of measurement; (2) design, development and evaluation of instrumentation and measurement systems and components used in generating, acquiring, conditioning and processing signals; (3) analysis, representation, display, and preservation of the information obtained from a set of measurements; and (4) scientific and technical support to establishment and maintenance of technical standards in the field of Instrumentation and Measurement.