Accurate simulation of spontaneous Raman scattering of CO2 for high-temperature diagnostics

IF 2.3 3区物理与天体物理 Q2 OPTICS Journal of Quantitative Spectroscopy & Radiative Transfer Pub Date : 2024-10-21 DOI:10.1016/j.jqsrt.2024.109223

Johannes Lill , Andreas Dreizler , Gaetano Magnotti , Dirk Geyer

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Abstract

This paper presents a comprehensive simulation approach for the temperature-dependent Raman spectra of CO₂, a common product in combustion and reactive environments. Previous studies have typically been limited to isotropic scattering or a restricted number of energy levels. In contrast, our simulation incorporates both isotropic and anisotropic scattering, including all ro-vibrational O, P, Q, R, and S transitions, and extends to all energy levels contained in and up to polyad 30, which our results demonstrate is essential for accurate modeling at high temperatures. The four most prevalent isotopologues

, and

are included, collectively accounting for over 99.99 % of naturally occurring CO₂. Polarizability ratios between the

v_{1}

and

2 v_{2}

modes and the isotropic/anisotropic contributions were determined by fitting them to experimental spectra at 296 K. The simulated CO₂ spectra demonstrate excellent agreement with experimental data across temperatures up to 2355 K, thereby enhancing the reliability of Raman spectroscopy in various applications involving CO₂.

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用于高温诊断的二氧化碳自发拉曼散射的精确模拟

二氧化碳是燃烧和反应环境中的常见产物，本文针对二氧化碳随温度变化的拉曼光谱提出了一种综合模拟方法。以往的研究通常局限于各向同性散射或有限数量的能级。相比之下，我们的模拟结合了各向同性和各向异性散射，包括所有 O、P、Q、R 和 S 振荡跃迁，并扩展到多聚体 30 及以下的所有能级，我们的结果表明这对高温下的精确建模至关重要。四种最普遍的同素异形体、、、和都包括在内，共占天然存在的二氧化碳的 99.99% 以上。通过拟合 296 K 的实验光谱，确定了 v1 和 2v2 模式之间的极化率以及各向同性/各向异性贡献。模拟的二氧化碳光谱与高达 2355 K 的实验数据非常吻合，从而提高了拉曼光谱在涉及二氧化碳的各种应用中的可靠性。

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来源期刊

Journal of Quantitative Spectroscopy & Radiative Transfer 物理-光谱学

CiteScore

5.30

自引率

21.70%

发文量

273

审稿时长

58 days

期刊介绍： Papers with the following subject areas are suitable for publication in the Journal of Quantitative Spectroscopy and Radiative Transfer: - Theoretical and experimental aspects of the spectra of atoms, molecules, ions, and plasmas. - Spectral lineshape studies including models and computational algorithms. - Atmospheric spectroscopy. - Theoretical and experimental aspects of light scattering. - Application of light scattering in particle characterization and remote sensing. - Application of light scattering in biological sciences and medicine. - Radiative transfer in absorbing, emitting, and scattering media. - Radiative transfer in stochastic media.