One Dimensional Temperature Measurements by Resonantly Ionized Photoemission Thermometry of Molecular Nitrogen

IF 1.1 Q4 OPTICS
Walker McCord, Aleksander Clark, Zhili Zhang
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引用次数: 0

Abstract

This paper presents an extensive parameter study of a non-intrusive and non-seeded laser diagnostic method for measuring one dimensional (1D) rotational temperature of molecular nitrogen (N 2 ) at 165 - 450 K. Compared to previous efforts using molecular oxygen, here resonantly ionized and photoelectron induced fluorescence of molecular nitrogen for thermometry (N 2 RIPT) was demonstrated. The RIPT signal is generated by directly probing various rotational levels within the rovibrational absorption band of N 2 , corresponding to the 3-photon transition of N 2 ( X 1 Σ g + , v =0→ b 1 Π u , v ′ =6) near 285 nm, without involving collisional effects of molecular oxygen and nitrogen. The photoionized N 2 produces strong first negative band of N 2 + ( B 2 Σ u + − X 2 Σ g + ) near 390 nm, 420 nm, and 425 nm. Boltzmann analyses of various discrete fluorescence emission lines yield rotational temperatures of molecular nitrogen. By empirically choosing multiple rotational levels within the absorption band, non-scanning thermometry can be accurately achieved for molecular nitrogen. It is demonstrated that the N 2 RIPT technique can measure 1D temperature profile up to ∼5 cm in length within a pure N 2 environment. Multiple wavelengths are thoroughly analyzed and listed that are accurate for RIPT for various temperature ranges.
分子氮共振电离光发射测温的一维温度测量
本文介绍了一种测量分子氮(n2)在165 - 450 K下一维旋转温度的非侵入式、非种子激光诊断方法的广泛参数研究。与以往使用分子氧的研究相比,本文证明了共振电离和光电子诱导荧光的分子氮测温(n2 RIPT)。RIPT信号是通过直接探测n2的旋转振动吸收带内的各个旋转能级产生的,对应于n2在285 nm附近的3光子跃迁(x1 Σ g +, v =0→b1 Π u, v ' =6),而不涉及分子氧和氮的碰撞效应。光电离的n2在390 nm, 420 nm和425 nm附近产生了n2 + (b2 Σ u +−x2 Σ g +)的强第一负带。玻尔兹曼分析各种离散的荧光发射线得到分子氮的旋转温度。通过经验选择吸收带内的多个旋转能级,可以准确地实现对分子氮的非扫描测温。结果表明,在纯n2环境中,n2 RIPT技术可以测量长度为~ 5 cm的1D温度分布。对多个波长进行了彻底的分析和列出,这些波长对RIPT在各种温度范围内都是准确的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.50
自引率
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