The ground, v2 = 1, 2 and v4 = 1 states of 14ND3 analyzed at experimental accuracy

IF 1.4 4区 物理与天体物理 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL Journal of Molecular Spectroscopy Pub Date : 2023-05-01 DOI:10.1016/j.jms.2023.111797
Elisabetta Canè , Gianfranco Di Lonardo , Luciano Fusina , Adriana Predoi-Cross , Filippo Tamassia
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Abstract

Ammonia is the object of extensive investigations due to the peculiar pattern of its interacting vibration states and its central role in astronomical sciences. 14ND3 is of interest in astrochemistry because the determination of deuterium fractionation ratios in ammonia and its deuterated isotopologues contributes to a deeper knowledge of the chemistry in the cold, dense cores of the interstellar medium. Here, the ground, v2 = 1, 2 and v4 = 1, a, s states of 14ND3 are analyzed thanks to new spectra recorded with the Canadian Light Source synchrotron, from 60 to 1500 cm−1 at a resolution ranging from 0.00096 to 0.003 cm−1. Overall, 7765 inversion, rotation-inversion, and vibration–rotation-inversion transitions in ν2, 2ν2, ν4, 2ν2 ← ν2, 2ν2 ← ν4, ν4 ← ν2, ν2 ← ν2, 2ν2 ← 2ν2, and ν4 ← ν4 have been fitted simultaneously to characterize the s and a levels of the excited states. 4021 and 2388 transitions were assigned in the cold and hot bands, respectively, and 150 inversion and 1206 inversion-rotation transitions in v2 = 1, 2 and v4 = 1. The effective Hamiltonian adopted includes all symmetry allowed interactions between and within the studied excited states, according to the most recent results on ammonia. The transitions have been reproduced at experimental accuracy using 118 spectroscopic parameters, determined with high precision. In addition, a new analysis of the ground state has been performed. 9256 data have been fitted, 78 inversion and 837 rotation-inversion transitions, and 8341 ground state combination differences. An improved set of parameters and term values are derived thanks to the increased precision of the newly assigned rotation-inversion transitions with J/ K values up to 31/30 and to the larger number of the ground state combination differences.

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在实验精度下分析了14ND3的基态、v2 = 1、2和v4 = 1态
氨是广泛研究的对象,因为它的相互作用振动状态的特殊模式及其在天文科学中的核心作用。14ND3对天体化学很有兴趣,因为测定氨及其氘化同位素中的氘分馏比有助于更深入地了解星际介质中寒冷、致密核心的化学成分。在这里,14ND3的地面,v2 = 1,2和v4 = 1, a, s状态分析得益于加拿大光源同步加速器记录的新光谱,从60到1500 cm−1,分辨率范围为0.00096到0.003 cm−1。总的来说,在ν2、2ν2、ν4、2ν2←ν2、2ν2←ν4、ν4←ν2、ν2←ν2、ν2←ν2、2ν2←ν2和ν4←ν4中同时拟合了7765个反演、旋转-反演和振动-旋转-反演跃迁,以表征激发态的s和a能级。在冷带和热带分别分配了4021和2388个转变,在v2 = 1、2和v4 = 1中分配了150个反转和1206个反转旋转转变。根据关于氨的最新结果,所采用的有效哈密顿量包括所研究激发态之间和内部所有允许的对称相互作用。利用118个光谱参数,以高精度重现了这些跃迁。此外,还对基态进行了新的分析。拟合9256个数据,78个反演和837个旋转反演跃迁,8341个基态组合差。由于新分配的旋转-反演转换精度提高,J/ K值高达31/30,并且基态组合差的数量增加,因此得到了一组改进的参数和项值。
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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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