CD379Br和CD381Br在900 ~ 1400 cm−1范围内的旋转分辨红外光谱分析

IF 1.4 4区物理与天体物理 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL

Journal of Molecular Spectroscopy Pub Date : 2023-03-01 DOI:10.1016/j.jms.2023.111760

T. Masiello , J.W. Vant , C.S. Brauer , T.A. Blake

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引用次数: 0

摘要

对CD379Br和CD381Br在900cm−1和1400cm−1之间的红外光谱进行了高分辨率分析。在这个区域中，已经分析了两个基本振动状态，v2=1和v5=1，一个泛音状态，v3=2，和一个组合状态，v2=v6=1。正如在其他卤代甲烷分子中发现的那样，强科里奥利共振将v2=1状态耦合到v5=1状态，并且类似的共振也用于描述在v5=1态到v3=2态之间发现的耦合。通过使用扰动允许的跃迁，对每个等拓扑进行了K相关常数A0的新测定。根据分析确定的A0值对于CD379Br和CD381Br分别为2.6001898（26）和2.6001905（27）。进行密度泛函理论计算，以检验高级理论计算准确预测光谱常数的有效性。密度泛函理论计算的成功率各不相同，最大的误差与相互作用态ΔB旋转常数的预测有关。

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Analysis of the rotationally-resolved infrared spectrum of CD379Br and CD381Br between 900 and 1400 cm−1

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Analysis of the rotationally-resolved infrared spectrum of CD379Br and CD381Br between 900 and 1400 cm−1

The infrared spectrum of CD₃⁷⁹Br and CD₃⁸¹Br between 900 cm⁻¹ and 1400 cm⁻¹ has been analyzed at high resolution. In this region, two fundamental vibrational states, v₂ = 1 and v₅ = 1, an overtone state, v₃ = 2, and a combination state, v₃ = v₆ = 1, have been analyzed for both isotopologues. As found in other halomethane molecules, strong Coriolis resonances couple the v₂ = 1 state to the v₅ = 1 state, and similar resonances were also used to describe the coupling found between the v₅ = 1 state to the v₃ = 2 state. A new determination of the K-dependent constant A₀ was performed for each isotopologue through the use of perturbation-allowed transitions. The values for A₀ determined from the analysis are 2.6001898(26) and 2.6001905(27) for CD₃⁷⁹Br and CD₃⁸¹Br, respectively. Density functional theory calculations were performed to examine the efficacy of high-level theoretical calculations to accurately predict spectroscopic constants. The density functional theory calculations had variable success with the largest errors associated with the prediction of the ΔB rotational constants of the interacting states.

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来源期刊

Journal of Molecular Spectroscopy 物理-光谱学

CiteScore

2.70

自引率

21.40%

发文量

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.