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We show that the poor performance of approximate Kohn-Sham (KS) density functional theory for highly charged atomic ions is improved dramatically by ensuring that (i) the exchange functional recovers the correct leading term in the Z expansion of the exchange energy (Z is the nuclear charge) and (ii) the correlation functional is bounded under uniform scaling of the density to the high-density limit---i. e. , lim_E₂^KSn_>-, where n_ (r) =^3n (). The performance of several density functionals (BLYP, BP86, VS98, HCTH/407, PBE, PKZB, and TPSS) is compared for the 4-, 10-, and 18-electron atomic series spanning values of Z from 4 to 28. Especially accurate results are obtained with the nonempirical metageneralized gradient approximation of Tao, Perdew, Staroverov, and Scuseria (TPSS). High-Z limits of selected exchange and correlation functionals are evaluated and compared with the exact values.
Staroverov et al. (Wed,) studied this question.
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