Abusara Z, Borvayeh L, Moazzen-Ahmadi N, McKellar A R W
Department of Physics and Astronomy, University of Calgary, 2500 University Drive North West, Calgary, Alberta T2N 1N4, Canada.
J Chem Phys. 2006 Oct 14;125(14):144306. doi: 10.1063/1.2356476.
Infrared spectra of the OCS-He van der Waals complex and of OCS-He(N) clusters have been studied in the region of the OCS nu1 fundamental band using a tunable diode laser to probe a pulsed supersonic slit jet. For the complex, the spectrum of the normal isotope, 16O12C32S-4He, has been considerably extended and the 34S- and 13C-substituted forms have been recorded for the first time. The data could be analyzed satisfactorily using a conventional asymmetric rotor Hamiltonian with sextic centrifugal distortion terms. For the clusters, the 34S- and 13C-substituted forms have been observed and assigned for N = 2-7, including some transitions with higher J values than previously reported for the normal isotope, e.g., R5. The observed vibrational shifts, relative to the free OCS molecule, were very similar to those of the normal isotope, and most of the difference could be explained by simple scaling. These results constitute a subtle and precise probe of intermolecular forces and dynamical effects in a system which is of current interest for cluster studies.
利用可调谐二极管激光器探测脉冲超声速狭缝射流,研究了OCS-He范德华复合物以及OCS-He(N)团簇在OCS ν1基频带区域的红外光谱。对于该复合物,正常同位素16O12C32S-4He的光谱得到了显著扩展,并且首次记录了34S和13C取代形式的光谱。使用具有六次离心畸变项的传统不对称转子哈密顿量可以对数据进行令人满意的分析。对于团簇,观察到了N = 2 - 7时34S和13C取代形式的光谱并进行了归属,包括一些J值比之前报道的正常同位素更高的跃迁,例如R5。相对于自由OCS分子观察到的振动位移与正常同位素的非常相似,并且大部分差异可以通过简单的标度来解释。这些结果构成了对一个目前在团簇研究中备受关注的系统中分子间力和动力学效应的微妙而精确的探测。