Relativistic corrections to reported sulfur 1s ionization energies

The lowest order relativistic corrections to the electronic energies have been computed for the B 1E u state of H 2 in the interval 1.0 ~< R ~< 30 a 0. The total correction at the equilibrium separation, R = 2.43 a o amounts to -2.126 cm-1. The absolute shifts of the vibrational levels of H 2 change

The computation of the relativistic correction to the first order in 1rc 2 , where c is the velocity of light, is implemented at the levels of coupled cluster and many-body perturbation theory. The relativistic correction is obtained by applying direct perturbation theory through the first order, an

Using the l/Z expansion method coupled with the random spin vector model, the reorganization corrections of the Koopmans ionization energies of the atomic valence state whose sp2ti quantization is referred to the Cartesian coordinate system were formulated up to the second order. The theoretical for