An energy-grained master equation was used to model the multiphoton pumping process in SF6. An energy-dependent absorption cross section that was approx. inversely dependent on the level of excitation was needed to reproduce exptl. data on the fraction decompd. per pulse.
Title
Infrared multiphoton chemistry: comparison of theory and experiment, solution of the master equation
Published in
Chemical Physics Letters
Volume
62
Issue
1
Pages
178-180
Date
1979
Note
Copyright 2003 ACS
CAPLUS
AN 1979:212868
CAN 90:212868
73-6
Spectra by Absorption, Emission, Reflection, or Magnetic Resonance, and Other Optical Properties
74
Thermochem. Chem. Kinet. Group,SRI Int.,Menlo Park,CA,USA. FIELD URL:
Journal
CHPLBC
written in English.
Laser radiation (multiphoton pumping by, in sulfur hexafluoride, energy-grained master equation for); Photolysis (of sulfur hexafluoride during multiphoton pumping); Optical pumping (multiphoton, in sulfur hexafluoride, energy-grained master equation for)
Record creation date
2011-02-01