Priem D, Colmont JM, Rohart F, Wlodarczak G, Gamache RR
Laboratoire de Physique des Lasers, Université des Sciences et Technologies de Lille, Villeneuve d'Ascq Cedex, F-59655, France
J Mol Spectrosc. 2000 Dec;204(2):204-215. doi: 10.1006/jmsp.2000.8208.
N(2)- and O(2)-broadened linewidths of the J = 34(2,32) <-- 34(1,33) transition of ozone located at 500.4 GHz have been measured at three temperatures in the 247-295 K range by using a video-type spectrometer. Besides the Voigt profile commonly used as theoretical model for millimeter-wave investigations, different other theoretical lineshapes, the speed-dependent Voigt profile, the Galatry profile, and the speed-dependent Galatry profile, have been considered to analyze the experimental spectra, to retrieve the pressure-broadening parameters, and to give an account of the pointed out line-narrowing effect. The results for O(3) perturbed by N(2) and O(2) are finally compared to calculations based on the complex semiclassical theory of Robert and Bonamy, and with previous reported values involving the same kind of transitions. Finally, it is shown that observed line narrowings result nearly exclusively from the dependence of relaxation on molecular speeds. Copyright 2000 Academic Press.
利用视频型光谱仪在247 - 295 K范围内的三个温度下,测量了位于500.4 GHz的臭氧J = 34(2,32) ← 34(1,33)跃迁的N₂和O₂加宽线宽。除了常用于毫米波研究的理论模型——洛伦兹轮廓外,还考虑了不同的其他理论线形,即速度依赖的洛伦兹轮廓、加拉特里轮廓和速度依赖的加拉特里轮廓,用于分析实验光谱、获取压力加宽参数,并解释所指出的线窄化效应。最后将N₂和O₂扰动下O₃的结果与基于罗伯特和博纳米的复半经典理论的计算结果以及先前报道的涉及同类跃迁的值进行了比较。最后表明,观察到的线窄化几乎完全是由于弛豫对分子速度的依赖性所致。版权所有2000年学术出版社。
