A ppb level sensitive sensor for atmospheric methane detection

Abstract

A high sensitivity sensor, combining a multipass cell and wavelength modulation spectroscopy in the near infrared spectral region was designed and implemented for trace gas detection. The effective length of the multipass cell was about 290 meters. The developed spectroscopic technique demonstrates an improved sensitivity of methane in ambient air and a relatively short detection time compared to previously reported sensors. Home-built electronics and software were employed for diode laser frequency modulation, signal lock-in detection and processing. A dual beam scheme and a balanced photo-detector were implemented to suppress the intensity modulation and noise for better detection sensitivity. The performance of the sensor was evaluated in a series of measurements ranging from three hours to two days. The average methane concentration measured in ambient air was 2.01ppm with a relative error of±2.5%. With Allan deviation analysis, it was found that the methane detection limit of 1.2ppb was achieved in 650s. The developed sensor is compact and portable, and thus it is well suited for field measurements of methane and other trace gases.