An optic-acoustic study of thermal vibrational relaxation in CO2 and in mixtures of CO2 with monoatomic gases

Physica Pub Date : 1974-12-15 DOI:10.1016/0031-8914(74)90373-5

M. Huetz-Aubert, F. Lepoutre

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引用次数: 20

Abstract

In order to study the thermal vibrational relaxation of CO₂, the gas is given a perturbation such that the bending mode, b, and the symmetric-stretching mode, s, remain in equilibrium with each other while the asymmetric stretching mode, a, undergoes a different evolution. Two relaxation times, τ_VT and τ_VV, occur in the collisional exchanges of energy: respectively, that of vibration-translation (V-T) between the set bs and the degrees of translation-rotation; and that of vibration-vibration (V-V) between a and bs. A third parameter, $G$ , characterizes the ratio of energies, gained by bs and lost by a, during the V-V exchange. τ_VT can be obtained from thermodynamic experiments and τ_VV by a fluorescence technique. The spectrophone method used here allows the simultaneous determination of τ_VT, τ_VV and $G$ ; one can therefore determine the quantum levels concerned in the exchanges and compute the corresponding transition probabilities.

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CO2和CO2与单原子气体混合物中热振动弛豫的光声研究

为了研究CO2的热振动弛豫，对气体进行扰动，使弯曲模态b和对称拉伸模态s彼此保持平衡，而不对称拉伸模态a则经历不同的演化。两个松弛时间τVT和τVV分别出现在碰撞能量交换中:b组之间的振动-平移(V-T)和平移-旋转度;a和b之间的振动-振动(V-V)。第三个参数G表示在V-V交换过程中，由bs获得和由A损失的能量之比。τVT可由热力学实验得到，τVV可由荧光技术得到。这里使用的声谱仪方法可以同时测定τVT， τVV和G;因此，我们可以确定交换中有关的量子能级，并计算相应的跃迁概率。

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Physica

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