Hartree‐Fock‐Roothaan calculations for ground states of some atoms using minimal basis sets of integer and noninteger n‐STOs

Abstract

AbstractHartree‐Fock‐Roothaan (HFR) calculations for ground states of some atoms, i.e. He, Be, Ne, Ar, and Kr have been performed using minimal basis sets of Slater type orbitals (STOs) with integer and noninteger principal quantum numbers (integer n‐STOs and noninteger n‐STOs). The obtained total energies for these atoms using minimal basis sets of integer n‐STOs are in good agreement with those in the previous literature. On the other hand, for the case of minimal basis sets of noninteger n‐STOs, although the calculated total energies of these atoms agree well with the results in Literature, some striking results have been obtained for atoms Ar and Kr. Our computational results for the energies of atoms Ar and Kr are slightly better than those in literature. by amount of 0.00222 and 0.000054 a.u., respectively. The improvement in the energies of atoms Ar and Kr may result from the efficient calculations of one‐center two‐electron integrals over noninteger n‐STOs. For some atomic ions in their ground state, HFR calculations have been carried out using minimal basis sets of noninteger n‐STOs. The obtained total energies for these atomic ions are substantially lower than those available in literature.