Measurements of NO₂ Concentration with Wide Dynamic Range Based on Laser Absorption Spectroscopy Using a Multi-Pass Optical Cell

Effects of Ambient Temperature Change at the Optical Cell

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This paper discusses the precise measurement of NO₂ concentrations in a sampled gas mixture using laser absorption spectroscopy. Pressurized NO₂/N₂ gas with known NO₂ concentrations were used as sample gas mixtures. A frequency doubled Nd: YAG laser and mid-infrared (MIR) coherent light, using difference frequency generation techniques, were used to examine optical absorption by NO₂. A relatively small change in temperature (ΔT-3K) at the optical multipass cell was found to vary the optical depth, particularly in a high concentration of NO₂ mixture. This change is likely caused by a non-equilibrium dimerization effect between NO₂ and N₂O₄ induced by the transient temperature non-uniformity of the gas mixture. Theoretical calculations and spectroscopic analysis suggest that careful consideration needs to be given to the stabilization of optical cell temperature, which is required to calibrate the laser absorption spectroscopic system for precise measurements of NO₂ concentration.