An electronically nonadiabatic quantum mechanical approach to the atom-molecule reactive scattering is presented. The hyperquantization algorithm, developed by us to treat electronically adiabatic reactions has been extended in order to consider the role of excited electronic states. Couplings of all the nuclear and electronic angular momenta of the system (spin-orbit, electronic, rotational, and Coriolis) are included in the treatment of the reaction dynamics. We specialize the theory for reactions of the chi ((2)p(j)) + H-2 type, where chi is a halogen atom, and give some numerical results for the example of fluorine. (C) 2001 John Wiley & Sons, Inc.
Theory of electronically nonadiabatic reactions: Rotational, coriolis, spin-orbit couplings and the hyperquantization algorithm
De Fazio D;
2001
Abstract
An electronically nonadiabatic quantum mechanical approach to the atom-molecule reactive scattering is presented. The hyperquantization algorithm, developed by us to treat electronically adiabatic reactions has been extended in order to consider the role of excited electronic states. Couplings of all the nuclear and electronic angular momenta of the system (spin-orbit, electronic, rotational, and Coriolis) are included in the treatment of the reaction dynamics. We specialize the theory for reactions of the chi ((2)p(j)) + H-2 type, where chi is a halogen atom, and give some numerical results for the example of fluorine. (C) 2001 John Wiley & Sons, Inc.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
