The W2020 Database of Validated Rovibrational Experimental Transitions and Empirical Energy Levels of Water Isotopologues. II. H217O and H218O with an Update to H216O

IF 4.4 2区 工程技术 Q2 CHEMISTRY, MULTIDISCIPLINARY Journal of Physical and Chemical Reference Data Pub Date : 2020-12-30 DOI:10.1063/5.0030680
T. Furtenbacher, Roland Tóbiás, J. Tennyson, O. Polyansky, A. Kyuberis, R. Ovsyannikov, N. Zobov, A. Császár
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引用次数: 26

Abstract

The W2020 database of validated experimental transitions and accurate empirical energy levels of water isotopologues, introduced in the work of Furtenbacher et al. [J. Phys. Chem. Ref. Data 49, 033101 (2020)], is updated for H216O and newly populated with data for H217O and H218O. The H217O/H218O spectroscopic data utilized in this study are collected from 65/87 sources, with the sources arranged into 76/99 segments, and the data in these segments yield 27 045/66 166 (mostly measured) rovibrational transitions and 5278/6865 empirical energy levels with appropriate uncertainties. Treatment and validation of the collated transitions of H216O, H217O, and H218O utilized the latest, XML-based version of the MARVEL (Measured Active Rotational-Vibrational Energy Levels) protocol and code, called xMARVEL. The empirical rovibrational energy levels of H217O and H218O form a complete set through 3204 cm−1 and 4031 cm−1, respectively. Vibrational band origins are reported for 37 and 52 states of H217O and H218O, respectively. The spectroscopic data of this study extend and improve the data collated by an International Union of Pure and Applied Chemistry Task Group in 2010 [J. Tennyson et al., J. Quant. Spectrosc. Radiat. Transfer 110, 2160 (2010)] as well as those reported in the HITRAN2016 information system. Following a minor but significant update to the W2020-H216O dataset, the joint analysis of the rovibrational levels for the series H216O, H217O, and H218O facilitated development of a consistent set of labels among these three water isotopologues and the provision of accurate predictions of yet to be observed energy levels for the minor isotopologues using the combination of xMARVEL results and accurate variational nuclear-motion calculations. To this end, 9925/8409 pseudo-experimental levels have been derived for H217O/H218O, significantly improving the coverage of accurate lines for these two minor water isotopologues up to the visible region. The W2020 database now contains almost all of the transitions, apart from those of HD16O, required for a successful spectroscopic modeling of atmospheric water vapor.
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W2020水同位素物验证振动实验跃迁和经验能级数据库。2H217O和H218O更新到H216O
futenbacher等人的工作介绍了W2020验证实验跃迁和水同位素精确经验能级数据库[J]。理论物理。化学。参考数据49,033101(2020)],更新了H216O,并新填充了H217O和H218O的数据。本研究利用的H217O/H218O光谱数据来自65/87个源,分布在76/99个片段中,这些片段的数据产生27 045/66 166个(大部分是实测的)转振跃迁和5278/6865个经验能级,具有适当的不确定度。对H216O、H217O和H218O的整理跃迁进行处理和验证,使用了最新的基于xml版本的MARVEL(实测主动旋转振动能级)协议和代码,称为xMARVEL。H217O和H218O的经验振动能级分别在3204 cm−1和4031 cm−1处形成完整的集合。据报道,H217O和H218O分别有37个和52个振动带起源。本研究的光谱数据扩展和改进了国际纯粹与应用化学联盟任务组在2010年整理的数据[J]。丁尼生等人,J.量子光谱。Radiat。Transfer 110, 2160(2010)]以及HITRAN2016信息系统中报告的数据。在对W2020-H216O数据集进行了一次小规模但意义重大的更新之后,对H216O、H217O和H218O系列的旋转振动水平进行了联合分析,促进了这三种水同位素物之间一致的标签集的开发,并利用xMARVEL结果和精确的变分核运动计算相结合,为尚未观察到的次要同位素物提供了准确的能级预测。为此,推导了H217O/H218O的9925/8409伪实验水平,显著提高了这两种次要水同位素的精确线覆盖范围,直至可见区域。W2020数据库现在包含了除了HD16O之外的几乎所有过渡,这些过渡是成功地对大气水蒸气进行光谱建模所必需的。
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来源期刊
CiteScore
6.90
自引率
11.60%
发文量
14
审稿时长
>12 weeks
期刊介绍: The Journal of Physical and Chemical Reference Data (JPCRD) is published by AIP Publishing for the U.S. Department of Commerce National Institute of Standards and Technology (NIST). The journal provides critically evaluated physical and chemical property data, fully documented as to the original sources and the criteria used for evaluation, preferably with uncertainty analysis. Critical reviews may also be included if they document a reference database, review the data situation in a field, review reference-quality measurement techniques, or review data evaluation methods.
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