Collisional energy transfer from excited polyatomic molecules produced by infrared multiple photon absorption
A simple energy-grained master equation was used to model data on the multiphoton dissocn. of CF2HCl as a function of laser fluence and Ar bath-gas pressure. Information on energy transfer from vibrationally excited CF2HCl was obtained from an anal. of the competition between laser pumping and collisional energy removal using suitable parametrizations of the laser intensity and the collision process.
1981
74
2
1012
Copyright 2003 ACS
CAPLUS
AN 1981:93508
CAN 94:93508
74-1
Radiation Chemistry, Photochemistry, and Photographic Processes
73
Dep. Chem. Kinet.,SRI Int.,Menlo Park,CA,USA. FIELD URL:
Journal
JCPSA6
written in English.
Laser radiation (absorption of many photons of, collisional energy transfer in relation to); Photon (absorption of many, by polyat. mols., collisional energy transfer in relation to); Photolysis (of chlorodifluoromethane, collisional energy transfer in relation to IR multiphoton-induced); Energy transfer (collisional, from polyat. mols. produced by IR multiphoton absorption)
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