Y. Dakhnovskii et Rd. Coalson, MANIPULATING REACTANT-PRODUCT DISTRIBUTIONS IN ELECTRON-TRANSFER REACTIONS WITH A LASER FIELD, The Journal of chemical physics, 103(8), 1995, pp. 2908-2916
The effect of a strong cw laser field on the process of nonadiabatic e
lectron transfer in polar solvents is considered. First-order kinetic
equations are derived in which the forward and backward rate constants
depend on the electric field parameters. The forward rate constant, w
hich governs the early time dynamics, exhibits dramatic variation with
field intensity in the barrierless and activationless regimes. The su
m of forward and backward rate constants, which determines the long ti
me kinetics and hence may be termed the full rare constant, is less se
nsitive to the field intensity in the same regime of molecular paramet
er space. It is shown that the asymptotic populations of the reactant
and product states are in general non-Boltzmann; their ratio can be va
ried by many orders of magnitude as the frequency and intensity of the
applied electric field are varied. (C) 1995 American Institute of Phy
sics.