Temperature dependence of near‐resonant vibration–vibration energy exchange in H35Cl+H37Cl and D35Cl+D37Cl collisions

1980 ◽  
Vol 73 (7) ◽  
pp. 3186-3190 ◽  
Author(s):  
H. K. Shin ◽  
Y. H. Kim
Keyword(s):  
Temperature Dependence ◽  
Energy Exchange ◽  
Vibration Energy ◽  
Resonant Vibration

The temperature dependence of vibration-vibration energy exchange between CO and COS

1975 ◽  
Vol 7 (1) ◽  
pp. 33-37 ◽  
Author(s):  
Dennis C. Richman ◽  
Miriam Lev-on ◽  
Roger C. Millikan
Keyword(s):  
Temperature Dependence ◽  
Energy Exchange ◽  
Vibration Energy

Temperature dependence of near resonant vibration → vibration energy transfer in HCl–D2 mixtures

1973 ◽  
Vol 59 (11) ◽  
pp. 5758-5762 ◽  
Author(s):  
Barbara M. Hopkins ◽  
Hao‐Lin Chen ◽  
Ramesh D. Sharma
Keyword(s):  
Energy Transfer ◽  
Temperature Dependence ◽  
Vibration Energy ◽  
Resonant Vibration

Vibration–vibration energy exchange in iodine molecules

1983 ◽  
Vol 78 (3) ◽  
pp. 1163-1173 ◽  
Author(s):  
J. B. Ree ◽  
Taikyue Ree ◽  
H. K. Shin
Keyword(s):  
Energy Exchange ◽  
Vibration Energy

Vibrational Energy Transfer in Carbon Monoxide

1972 ◽  
Vol 50 (9) ◽  
pp. 889-897 ◽  
Author(s):  
P. H. Dawson ◽  
W. G. Tam
Keyword(s):  
Energy Exchange ◽  
Vibrational Energy ◽  
Transverse Flow ◽  
Vibration Energy ◽  
Excess Oxygen ◽  
Experimental Measurements ◽  
Energy Distributions ◽  
Vibrationally Excited ◽  
Population Distributions

The role of V–V processes in vibrationally excited CO systems in the longitudinal and transverse flow chemical lasers is studied. Initial vibrational energy distributions of CO formed by the O + CS reaction are deduced from chemiluminescent data using calculated values of the vibration energy exchange probabilities. The time evolution of the population distributions is then obtained by computer simulation. The results are compared with experimental measurements. The effects of excess oxygen and of "cold" CO on the population distributions are also discussed.

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