The dependence of rate coefficients and product yields upon fluence, intensity, and time in unimolecular reactions induced by monochromatic infrared radiation
The influence of the fluence, intensity, and time on rate coeffs. and product yields in collisionless unimol. reactions induced by monochromatic IR is discussed in terms of the logarithmic reactant fluence plots. Model calcns. for several archetypes of such plots are presented, based on solns. of the Pauli master equation and solns. of the quantum mech. equations of motion for spectra involving many states at each level of excitation. Exptl. examples re-evaluated from the literature and new measurements on the laser induced decompn. of CF2HCl are reported which illustrate the various theor. possibilities. The role of the reducibility of the rate coeff. matrix is discussed in connection with turnovers and with the strong influence of initial temp. that is found in the laser induced decompn. of CF2HCl.
1980
73
1
247
Copyright 2003 ACS
CAPLUS
AN 1980:539566
CAN 93:139566
71-4
Nuclear Technology
67, 73
Inst. Phys. Chem.,Univ. Goettingen,Goettingen,Fed. Rep. Ger. FIELD URL:
Journal
JCPSA6
written in English.
Photochemistry (IR laser, of unimol. reactions); Kinetics of photolysis (of chlorodifluoromethane, under monochromatic IR laser radiation); Photolysis (laser-induced, of chlorodifluoromethane under monochromatic IR radiation)
REVIEWED