Laser-induced rate processes in gases: Reduction of generalized to ordinary master equation
- 1 October 1975
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 63 (7), 2929-2935
- https://doi.org/10.1063/1.431703
Abstract
The generalized master equation (GME) describing the time evolution of energy level populations for a laser‐pumped molecular gas, suffering phase‐changing and thermalizing collisions, is analyzed in the weak radiation field limit for a two‐level absorber. We show that the GME reduces to an ordinary master equation (OME) when the absorber response is perturbed by collisions, by phase interruptions in the light field, or by a combination of both. The GME to OME reduction is possible only in the low intensity and weak collision limits thereby placing a stringent limitation on the use of ordinary master equations to obtain accurate estimates of the evolution of energy level populations.Keywords
This publication has 8 references indexed in Scilit:
- Phase coherence and collision models in radiatively driven oscillatorsThe Journal of Chemical Physics, 1975
- Laser-Induced Chemical ReactionsAnnual Review of Physical Chemistry, 1974
- The reaction of vibrationally excited HCl with oxygen and hydrogen atomsChemical Physics Letters, 1974
- Laser-induced rate processes in gases: Phase coherence in an N-level modelThe Journal of Chemical Physics, 1973
- Laser stimulation of chemical reactions and scattered field detectionThe Journal of Chemical Physics, 1973
- Laser-Induced Rate Processes in Gases: Dynamics, Unimolecular Decay, and Scattered FieldPhysical Review A, 1972
- Stochastic Theory of Line Shape: Generalization of the Kubo-Anderson ModelPhysical Review B, 1968
- Quantum Uncertainty in the Time of a CollisionThe Journal of Chemical Physics, 1965