Quasiclassical trajectory study of energy relaxation process in collision of highly vibrationally excited O2 and ground-state N2
Author:
Funder
JSPS KAKENHI
Publisher
Elsevier BV
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy
Reference27 articles.
1. Energetic Oxygen in the Upper Atmosphere and the Laboratory
2. Laboratory evidence for a possible non-LTE mechanism of stratospheric ozone formation
3. State-to-state rate constants for relaxation of highly vibrationally excited O2 and implications for its atmospheric fate
4. State-specific rate constants for the relaxation of O2(X3Σg–, ν= 8–11) in collisions with O2, N2, NO2, CO2, N2O, CH4and He
5. Resonant vibration–vibration energy transfer between highly vibrationally excited O2(X 3Σ−g,v=15–26) and CO2, N2O, N2, and O3
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1. The role of the long-range tail of the potential in O2 + N2 collisional inelastic vibrational energy transfers;Physical Chemistry Chemical Physics;2017
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