冲击管中 4.18 μm 附近氩和氮扰动二氧化碳线的高温线强度和线形参数测量结果

IF 1.4 4区 物理与天体物理 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL Journal of Molecular Spectroscopy Pub Date : 2024-02-01 DOI:10.1016/j.jms.2024.111890
Youquan Yang , Zhimin Peng , Dao Zheng , Meng Zhang , Yanjun Ding , Yanjun Du
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摘要

利用激光吸收光谱(LAS)测量了在 730 K 至 2500 K、压力低于 1.13 atm 的冲击管中,ν3 基带中 Ar 和 N2 扰动的 CO2 R 分支跃迁(82 ≤J″≤ 90)的线强度和线形参数。用 Voigt 和二次速度依赖性 Voigt(qSDV)曲线拟合得到的吸收曲线,从而获得了线强度、展宽和位移系数。线强度与 HITEMP、HITRAN2020 和 Ames2021 数据库中的值进行了比较,结果表明 HITEMP 与测量结果的一致性最好。将氩气和氮气的增宽和位移系数回归为幂律和双幂律形式,以研究目标线的温度依赖性。速度相关参数 aw 与温度有关。讨论了得出的增宽和位移系数的 J 依赖性。这项工作的结果将有助于开发远翼区吸收模型和设计用于高温测量的 CO2 LAS 传感器。
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High-temperature line strength and line shape parameters measurements of Ar- and N2-perturbed CO2 lines near 4.18 µm in a shock tube

Line strengths and line shape parameters of Ar- and N2-perturbed CO2 R-branch transitions (82 J 90) in the ν3 fundamental band were measured in a shock tube from 730 K to 2500 K and pressure below 1.13 atm using laser absorption spectroscopy (LAS). The retrieved absorption curves were fitted with the Voigt and the quadratic speed-dependent Voigt (qSDV) profiles to obtain the line strengths, broadening, and shift coefficients. Line strengths were compared to values in HITEMP, HITRAN2020, and Ames2021 databases, and the HITEMP shows the best agreement with the measured results. Ar- and N2-broadening and shift coefficients were regressed into the power law and the double power law form to study the temperature dependence of the targeted lines. The speed-dependence parameter aw was temperature-dependent. The J-dependence of the derived broadening and shift coefficients was discussed. The results of this work will aid the development of the absorption model in the far-wing region and the design of CO2 LAS sensors for high-temperature measurement.

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来源期刊
CiteScore
2.70
自引率
21.40%
发文量
94
审稿时长
29 days
期刊介绍: The Journal of Molecular Spectroscopy presents experimental and theoretical articles on all subjects relevant to molecular spectroscopy and its modern applications. An international medium for the publication of some of the most significant research in the field, the Journal of Molecular Spectroscopy is an invaluable resource for astrophysicists, chemists, physicists, engineers, and others involved in molecular spectroscopy research and practice.
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