We formulate an ab initio method of quasirelativistic calculations on angular momentum and magnetic transition matrix elements between adiabatic electronic states of molecules. Our approach is based on the construction of a state-selective effective Hamiltonian and transition density matrices by means of the multireference many-body perturbation theory. Pilot applications to the evaluation of B0+u→B″1u predissociation matrix elements in I2 and interactions in the B0+unot, vert, similarB1u complex of Te2 are reported.
Ab initio quasi-relativistic calculations on angular momentum and magnetic couplings of molecular electronic states.
CIMIRAGLIA, Renzo
2002
Abstract
We formulate an ab initio method of quasirelativistic calculations on angular momentum and magnetic transition matrix elements between adiabatic electronic states of molecules. Our approach is based on the construction of a state-selective effective Hamiltonian and transition density matrices by means of the multireference many-body perturbation theory. Pilot applications to the evaluation of B0+u→B″1u predissociation matrix elements in I2 and interactions in the B0+unot, vert, similarB1u complex of Te2 are reported.File in questo prodotto:
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