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Heterodyne photothermal spectroscopy of methane near 1651 nm inside hollow-core fiber using a bismuth-doped fiber amplifier

Grzegorz Gomółka, Monika Krajewska, Aleksandr Khegai, Sergey Alyshev, Alexey Lobanov, Sergei Firstov, Dariusz Pysz, Grzegorz Stępniewski, Ryszard Buczyński, Mariusz Klimczak, Michał Nikodem

2021Applied Optics19 citationsDOI

Abstract

We present laser-based methane detection near 1651 nm inside an antiresonant hollow-core fiber (HCF) using photothermal spectroscopy (PTS). A bismuth-doped fiber amplifier capable of delivering up to more than 160 mW at 1651 nm is used to boost the PTS signal amplitude. The design of the system is described, and the impact of various experimental parameters (such as pump source modulation frequency, modulation amplitude, and optical power) on signal amplitude and signal-to-noise ratio is analyzed. Comparison with similar PTS/HCF-based systems is presented. With 1.3 m long HCF and a fiber amplifier for signal enhancement, this technique is capable of detecting methane at single parts-per-million levels, which makes this robust in-fiber sensing approach promising also for industrial applications such as, e.g., natural gas leak detection.

Topics & Concepts

Materials scienceOpticsFiber laserAmplitude modulationAmplifierSIGNAL (programming language)Optical fiberFiberOptoelectronicsLaserHeterodyne detectionModulation (music)SpectroscopyFrequency modulationTelecommunicationsPhysicsWavelengthRadio frequencyCMOSAcousticsComposite materialQuantum mechanicsComputer scienceProgramming languageSpectroscopy and Laser ApplicationsAtmospheric and Environmental Gas DynamicsSpectroscopy Techniques in Biomedical and Chemical Research
Heterodyne photothermal spectroscopy of methane near 1651 nm inside hollow-core fiber using a bismuth-doped fiber amplifier | Litcius