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Abstract
The ground state of the (${d}^{4}{s}^{2}$) configuration shifts by 1.725 eV relative to that of the (${d}^{5}s$) on going from Mo to W. This shift, which arises mainly from relativistic contributions to the W energy, is calculated with 2% accuracy by use of the authors' relativistic pseudopotential and the local-spin-density approximation. That the single determinantal broken-symmetry local-spin-density approximation wave function accounts for the spin-orbit energy, which otherwise could be obtained from the spin-orbit mixing of several multideterminantal terms, may be surprising.
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