Ultra-sensitive Ppb-level Methane Detection Based on NIR All-optical Photoacoustic Spectroscopy by Using Differential Fiber-optic Microphones with Gold-chromium Composite Nanomembrane

Overview

Journal Photoacoustics

Date 2022 Apr 28

PMID 35479193

Authors

Hanping Xiao

Jinbiao Zhao

Chaotan Sima

Ping Lu

Yanhong Long

Yan Ai

Wanjin Zhang

Yufeng Pan

Jiangshan Zhang

Deming Liu

Affiliations

Soon will be listed here.

Abstract

In this paper, we propose and experimentally demonstrate an ultra-sensitive all-optical PAS gas sensor, incorporating with a near-infrared (NIR) diode laser, fiber-optic microphones (FOMs) and a double channel differential T-type photoacoustic cell. The FOM is realized by Fabry-Perot interferometry and novel gold-chromium (Au-Cr) composite nanomembranes. To meet the demand of high sensitivity and flat frequency response for the FOMs, the Au-Cr composite diaphragm is deliberately designed and fabricated by E-beam evaporation deposition with 330 nm in thickness and 6.35 mm in radius. Experimental results show that the FOM has a sensitivity of about 30 V/Pa and a flat frequency response from 300 to 900 Hz with fluctuation below 1 dB. Moreover, a double channel differential T-type photoacoustic cell is designed and employed in the all-optical PAS gas sensor, with the first-order resonant frequency of 610 Hz. The all-optical gas sensor is established and verified for CH detection and the normalized noise equivalent absorption (NNEA) is 4.42 × 10 W∙cm∙Hz. The minimum detection limit (MDL) of 36.45 ppb is achieved with a 1 s integration time. The MDL could be further enhanced to 4.87 ppb with an integration time of 81 s, allowing ultra-sensitive trace gas detection.

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