Core-valence correlations for atoms with open shells

Abstract

We present an efficient method of inclusion of the core-valence correlations into the configuration interaction (CI) calculations. These correlations take place in the core area where the potential of external electrons is approximately constant. A constant potential does not change the core electron wave functions and Green's functions. Therefore, all operators describing interaction of M valence electrons and N-M core electrons (the core part of the Hartree-Fock Hamiltonian VN-M, the correlation potential 1( r, r',E) and the screening of interaction between valence electrons by the core electrons 2) may be calculated with all M valence electrons removed. This allows one to avoid subtraction diagrams which make accurate inclusion of the core-valence correlations for M>2 prohibitively complicated. Then the CI Hamiltonian for M valence electrons is calculated using orbitals in complete VN potential (the mean field produced by all electrons); 1 + 2 are added to the CI Hamiltonian to account for the core-valence correlations. We calculate 1 and 2 using many-body perturbation theory in which dominating classes of diagrams are included in all orders. We use neutral Xe I and all positive ions up to Xe VIII as a testing ground. We found that the core electron density for all these systems is practically the same. Therefore, we use the same 1 and 2 to build the CI Hamiltonian in all these systems (M=1,2,3,4,5,6,7,8). Good agreement with experiment for energy levels and Land\'e factors is demonstrated for all cases from Xe I to Xe VIII.

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