Litcius/Paper detail

An Ultrahighly Sensitive CH<sub>4</sub>-TDLAS Sensor Based on an 80-m Optical Path Length Multipass Cell with a Dense Circular Spot Pattern

Xiaorong Sun, Haiyue Sun, Ying He, Shunda Qiao, Yufei Ma

2025Analytical Chemistry48 citationsDOI

Abstract

In this paper, we present an ultrahighly sensitive methane (CH 4 ) sensor based on tunable diode laser absorption spectroscopy (TDLAS), utilizing an 80-m optical path length (OPL) multipass cell (MPC) with 15 independent circles pattern. The designed MPC achieved an actual OPL of 81.58 m within a compact volume of 361 cm 3, resulting in an exceptional ratio of optical path length to volume (RLV) of 22.6 cm –2 . Wavelength modulation spectroscopy (WMS) was employed to minimize background noise and enhance detection performance. The CH 4 -TDLAS sensor demonstrated excellent linear response to CH 4 concentrations. The minimum detection limit (MDL) of the sensor was determined to be 13.46 ppb. Further analysis using Allan deviation revealed that the MDL improved to 1.36 ppb at an average time of 400 s, highlighting the sensor’s exceptional long-term stability and ultrahigh sensitivity. Finally, to further validate the sensor’s performance, an experiment simulating laboratory CH 4 leakage was conducted. The results demonstrated that the CH 4 -TDLAS sensor exhibits ultrahigh sensitivity, effectively detecting and tracking changes in CH 4 concentration in real time.

Topics & Concepts

ChemistryPath lengthOptical path lengthOpticsPath (computing)PhysicsComputer scienceProgramming languageSpectroscopy and Laser ApplicationsPhotonic and Optical DevicesAtmospheric Ozone and Climate