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Diagonal and off-diagonal hyperfine structure matrix elements in KCs within the relativistic Fock space coupled cluster theory

The four-component relativistic Fock space coupled cluster method is used to describe the magnetic hyperfine interaction in low-lying electronic states of the KCs molecule. Both diagonal and off-diagonal matrix elements as functions of the internuclear separation $R$ are calculated within the finite-field scheme. The resulting matrix elements exhibit very weak dependence on $R$ for the separations exceeding 8 Å, whereas in the vicinity of the ground-state equilibrium the deviation of molecular HFS matrix elements from the atomic values reaches 15\%. The dependence of the computed HFS couplings on the level of core correlation treatment is discussed.

preprint2020arXivOpen access
Alexander V. OleynichenkoLeonid V. SkripnikovAndrei ZaitsevskiiEphraim EliavVladimir M. Shabaev
physics.atom-phphysics.comp-phphysics.chem-ph
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Alexander V. OleynichenkoLeonid V. SkripnikovAndrei ZaitsevskiiEphraim EliavVladimir M. Shabaev

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