Quantum Transition Probabilities for Diatomic–Diatomic Molecule Collisions
- 15 July 1969
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 51 (2) , 611-614
- https://doi.org/10.1063/1.1672043
Abstract
The method of Shuler and Zwanzig is used to calculate quantum transition probabilities between vibration levels of colliding diatomic molecules. The molecules are assumed to have harmonic bond potentials, the intermolecular interaction is taken to be impulsive, and only collinear configurations are investigated. Vibration–vibration transfer is found to be a quite significant mode of energy transfer, and it is apparently not sensitive to the degree of close matching of the vibration frequencies of the colliding molecules. It is suspected that this insensitivity may be due to the impulsive collision model used.This publication has 5 references indexed in Scilit:
- Quantum Transition Probabilities for Atom–Triatomic-Molecule CollisionsThe Journal of Chemical Physics, 1969
- Quantum-Mechanical Treatment of Inelastic Collisions. I. General Theory and Application to Nonreactive CollisionsThe Journal of Chemical Physics, 1968
- Vibrational and Rotational Transitions in Molecular CollisionsProgress of Theoretical Physics Supplement, 1963
- Quantum-Mechanical Calculation of Harmonic Oscillator Transition Probabilities. II. Three-Dimensional Impulsive CollisionsThe Journal of Chemical Physics, 1962
- Quantum-Mechanical Calculation of Harmonic Oscillator Transition Probabilities in a One-Dimensional Impulsive CollisionThe Journal of Chemical Physics, 1960