HCl在Ar, Kr和Xe中稀释的基本振动位移的模拟研究:非调和修正效应

A. Padilla, J. Pérez
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引用次数: 2

摘要

利用分子动力学方法和相互作用各向同性部分随振动的模型,计算了不同热力学条件下HCl在Ar、Kr和Xe溶液中稀释后的基本带的振动溶剂位移。将理论振动位移与现有实验数据进行比较,通过考虑通常的线性Buckingham项和非线性非调和修正来确定,后者在之前的Ar和Kr中的HCl工作中被省略。我们发现Buckingham贡献主导了Ar, Kr和Xe中的HCl的基本能带的溶剂位移。尽管在正常条件下,N2在液体Ar和纯液体N2中稀释得到的非调和位移值明显大于之前得到的值。我们分析了线性和二次(在振动坐标中)振槽相互作用项对溶剂位移的影响,以及Dunham分子内势对非调和贡献的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Simulation Study of the Fundamental Vibrational Shifts of HCl Diluted in Ar, Kr, and Xe: Anharmonic Corrections Effects
We have calculated the vibrational solvent shifts of the fundamental bands of HCl diluted in Ar, Kr, and Xe solutions at different thermodynamic conditions by means of the molecular dynamics technique and a model for the isotropic part of the interaction depending on the vibration. The theoretical vibrational shifts, which were compared with the available experimental data, have been determined by considering both, the usual linear Buckingham terms and the nonlinear anharmonic corrections, and the latter omitted in a previous work for the HCl in Ar and Kr. We have found that the Buckingham contributions dominate the solvent shifts of the fundamental bands of HCl in Ar, Kr, and Xe, although the anharmonic shifts’ present significant greater values than those obtained previously for N2 diluted in liquid Ar and pure liquid N2, both at normal conditions. We have analyzed the solvent shifts influence of the linear and quadratic (in the vibrational coordinate) oscillator-bath interaction terms and also the Dunham intramolecular potential effects on the anharmonic contributions.
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