论文信息 - Deactivation of Bending Mode of CO2 by Hydrogen and Deuterium

Deactivation of Bending Mode of CO2 by Hydrogen and Deuterium

The rate of deactivation of bending mode of CO2 by hydrogen and by deuterium is calculated using long‐range forces. It is shown that orthohydrogen is an order of magnitude more effective than parahydrogen at room temperature, the deactivation being affected by J = 1 → J = 3 rotational transition of the ground vibrational level. The agreement with the available data is good up to ∼500°K. The calculation for deactivation by deuterium due to rotational transition J = 4 → J = 6 yields results which are in reasonable agreement with the results of Cottrell and Day.

R. Sharma

[1] C. A. Brau,et al. Energy Transfer in Near‐Resonant Molecular Collisions due to Long‐Range Forces with Application to Transfer of Vibrational Energy from ν3 Mode of CO2 to N2 , 1969 .

[2] C. Gray. On the theory of multipole interactions , 1968 .

[3] J. Kranendonk,et al. CALCULATION OF THE PRESSURE BROADENING OF ROTATIONAL RAMAN LINES DUE TO MULTIPOLAR AND DISPERSION INTERACTION , 1966 .

[4] L. Wolniewicz. Vibrational—Rotational Study of the Electronic Ground State of the Hydrogen Molecule , 1966 .

[5] R. Millikan,et al. Vibrational Relaxation of Carbon Monoxide by Ortho‐ and Parahydrogen , 1964 .

[6] A. Messiah. Quantum Mechanics , 1961 .

[7] R. Landshoff,et al. Quantitative Molecular Spectroscopy and Gas Emissivities , 1959 .

[8] C. F. Curtiss,et al. Molecular Theory Of Gases And Liquids , 1954 .

[9] Karl F. Herzfeld,et al. Calculation of Vibrational Relaxation Times in Gases , 1952 .