Pump-probe-alternating photothermal interferometry for two-component gas sensing

Linhao Guo; Pengcheng Zhao; Hoi Lut Ho; Shoulin Jiang; Haihong Bao; Shoufei Gao; Yingying Wang; Wei Jin

doi:10.1364/OL.505462

Pump-probe-alternating photothermal interferometry for two-component gas sensing

Linhao Guo, Pengcheng Zhao, Hoi Lut Ho, Shoulin Jiang, Haihong Bao, Shoufei Gao, Yingying Wang, Wei Jin

Research output: Journal article publication › Journal article › Academic research › peer-review

1 Citation (Scopus)

Abstract

We demonstrate a high-sensitivity acetylene/methane gas sensor based on hollow-core fiber photothermal interferometry (PTI) with a pump-probe-alternating technique. This technique utilizes two distributed-feedback lasers as pump and probe beams alternatively for two gas components to facilitate photothermal phase modulation and detection through time-division multiplexing. With a 2.5-cm-long hollow-core conjoint-tube fiber, noise-equivalent concentrations of 370 ppb and 130 ppb are demonstrated for methane and acetylene, respectively. Noise characteristics of the PTI system are analyzed and experimentally tested. The proposed technique eliminates the need for an additional laser in the traditional PTI setup, enabling the construction of a sensitive yet more cost-effective multi-gas component detection system.

Original language	English
Pages (from-to)	6440-6443
Number of pages	4
Journal	Optics Letters
Volume	48
Issue number	24
DOIs	https://doi.org/10.1364/OL.505462
Publication status	Published - 15 Dec 2023

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1364/OL.505462

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title = "Pump-probe-alternating photothermal interferometry for two-component gas sensing",

abstract = "We demonstrate a high-sensitivity acetylene/methane gas sensor based on hollow-core fiber photothermal interferometry (PTI) with a pump-probe-alternating technique. This technique utilizes two distributed-feedback lasers as pump and probe beams alternatively for two gas components to facilitate photothermal phase modulation and detection through time-division multiplexing. With a 2.5-cm-long hollow-core conjoint-tube fiber, noise-equivalent concentrations of 370 ppb and 130 ppb are demonstrated for methane and acetylene, respectively. Noise characteristics of the PTI system are analyzed and experimentally tested. The proposed technique eliminates the need for an additional laser in the traditional PTI setup, enabling the construction of a sensitive yet more cost-effective multi-gas component detection system.",

author = "Linhao Guo and Pengcheng Zhao and Ho, {Hoi Lut} and Shoulin Jiang and Haihong Bao and Shoufei Gao and Yingying Wang and Wei Jin",

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AU - Guo, Linhao

AU - Zhao, Pengcheng

AU - Ho, Hoi Lut

AU - Jiang, Shoulin

AU - Bao, Haihong

AU - Gao, Shoufei

AU - Wang, Yingying

AU - Jin, Wei

PY - 2023/12/15

Y1 - 2023/12/15

N2 - We demonstrate a high-sensitivity acetylene/methane gas sensor based on hollow-core fiber photothermal interferometry (PTI) with a pump-probe-alternating technique. This technique utilizes two distributed-feedback lasers as pump and probe beams alternatively for two gas components to facilitate photothermal phase modulation and detection through time-division multiplexing. With a 2.5-cm-long hollow-core conjoint-tube fiber, noise-equivalent concentrations of 370 ppb and 130 ppb are demonstrated for methane and acetylene, respectively. Noise characteristics of the PTI system are analyzed and experimentally tested. The proposed technique eliminates the need for an additional laser in the traditional PTI setup, enabling the construction of a sensitive yet more cost-effective multi-gas component detection system.

AB - We demonstrate a high-sensitivity acetylene/methane gas sensor based on hollow-core fiber photothermal interferometry (PTI) with a pump-probe-alternating technique. This technique utilizes two distributed-feedback lasers as pump and probe beams alternatively for two gas components to facilitate photothermal phase modulation and detection through time-division multiplexing. With a 2.5-cm-long hollow-core conjoint-tube fiber, noise-equivalent concentrations of 370 ppb and 130 ppb are demonstrated for methane and acetylene, respectively. Noise characteristics of the PTI system are analyzed and experimentally tested. The proposed technique eliminates the need for an additional laser in the traditional PTI setup, enabling the construction of a sensitive yet more cost-effective multi-gas component detection system.

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Pump-probe-alternating photothermal interferometry for two-component gas sensing

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